WO2019190101A1 - Compound for organic electric element, organic electric element using same, and electronic device therefor - Google Patents

Compound for organic electric element, organic electric element using same, and electronic device therefor Download PDF

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WO2019190101A1
WO2019190101A1 PCT/KR2019/003116 KR2019003116W WO2019190101A1 WO 2019190101 A1 WO2019190101 A1 WO 2019190101A1 KR 2019003116 W KR2019003116 W KR 2019003116W WO 2019190101 A1 WO2019190101 A1 WO 2019190101A1
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group
formula
chemical formula
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organic
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PCT/KR2019/003116
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French (fr)
Korean (ko)
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문성윤
이선희
박종광
소기호
김원삼
박정환
박치현
채미영
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덕산네오룩스 주식회사
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Priority claimed from KR1020190029346A external-priority patent/KR20190114764A/en
Application filed by 덕산네오룩스 주식회사 filed Critical 덕산네오룩스 주식회사
Priority to CN202310372220.6A priority Critical patent/CN116332916A/en
Priority to CN202310372237.1A priority patent/CN116332914A/en
Priority to US17/043,595 priority patent/US11856843B2/en
Priority to CN201980018624.7A priority patent/CN111836872B/en
Publication of WO2019190101A1 publication Critical patent/WO2019190101A1/en
Priority to US17/343,040 priority patent/US20220367818A1/en

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    • C07ORGANIC CHEMISTRY
    • C07DHETEROCYCLIC COMPOUNDS
    • C07D405/00Heterocyclic compounds containing both one or more hetero rings having oxygen atoms as the only ring hetero atoms, and one or more rings having nitrogen as the only ring hetero atom
    • C07D405/02Heterocyclic compounds containing both one or more hetero rings having oxygen atoms as the only ring hetero atoms, and one or more rings having nitrogen as the only ring hetero atom containing two hetero rings
    • C07D405/04Heterocyclic compounds containing both one or more hetero rings having oxygen atoms as the only ring hetero atoms, and one or more rings having nitrogen as the only ring hetero atom containing two hetero rings directly linked by a ring-member-to-ring-member bond
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    • C07ORGANIC CHEMISTRY
    • C07DHETEROCYCLIC COMPOUNDS
    • C07D405/00Heterocyclic compounds containing both one or more hetero rings having oxygen atoms as the only ring hetero atoms, and one or more rings having nitrogen as the only ring hetero atom
    • C07D405/14Heterocyclic compounds containing both one or more hetero rings having oxygen atoms as the only ring hetero atoms, and one or more rings having nitrogen as the only ring hetero atom containing three or more hetero rings
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    • C07ORGANIC CHEMISTRY
    • C07DHETEROCYCLIC COMPOUNDS
    • C07D409/00Heterocyclic compounds containing two or more hetero rings, at least one ring having sulfur atoms as the only ring hetero atoms
    • C07D409/14Heterocyclic compounds containing two or more hetero rings, at least one ring having sulfur atoms as the only ring hetero atoms containing three or more hetero rings
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    • C09K11/00Luminescent, e.g. electroluminescent, chemiluminescent materials
    • C09K11/06Luminescent, e.g. electroluminescent, chemiluminescent materials containing organic luminescent materials
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    • H10K85/00Organic materials used in the body or electrodes of devices covered by this subclass
    • H10K85/60Organic compounds having low molecular weight
    • H10K85/649Aromatic compounds comprising a hetero atom
    • H10K85/654Aromatic compounds comprising a hetero atom comprising only nitrogen as heteroatom
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    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K85/00Organic materials used in the body or electrodes of devices covered by this subclass
    • H10K85/60Organic compounds having low molecular weight
    • H10K85/649Aromatic compounds comprising a hetero atom
    • H10K85/657Polycyclic condensed heteroaromatic hydrocarbons
    • H10K85/6574Polycyclic condensed heteroaromatic hydrocarbons comprising only oxygen in the heteroaromatic polycondensed ring system, e.g. cumarine dyes
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    • H10SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K85/00Organic materials used in the body or electrodes of devices covered by this subclass
    • H10K85/60Organic compounds having low molecular weight
    • H10K85/649Aromatic compounds comprising a hetero atom
    • H10K85/657Polycyclic condensed heteroaromatic hydrocarbons
    • H10K85/6576Polycyclic condensed heteroaromatic hydrocarbons comprising only sulfur in the heteroaromatic polycondensed ring system, e.g. benzothiophene
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    • C09K2211/00Chemical nature of organic luminescent or tenebrescent compounds
    • C09K2211/10Non-macromolecular compounds
    • C09K2211/1018Heterocyclic compounds
    • C09K2211/1025Heterocyclic compounds characterised by ligands
    • C09K2211/1059Heterocyclic compounds characterised by ligands containing three nitrogen atoms as heteroatoms
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    • C09K2211/00Chemical nature of organic luminescent or tenebrescent compounds
    • C09K2211/10Non-macromolecular compounds
    • C09K2211/1018Heterocyclic compounds
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    • C09K2211/1088Heterocyclic compounds characterised by ligands containing oxygen as the only heteroatom
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    • C09K2211/00Chemical nature of organic luminescent or tenebrescent compounds
    • C09K2211/10Non-macromolecular compounds
    • C09K2211/1018Heterocyclic compounds
    • C09K2211/1025Heterocyclic compounds characterised by ligands
    • C09K2211/1092Heterocyclic compounds characterised by ligands containing sulfur as the only heteroatom
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    • H10KORGANIC ELECTRIC SOLID-STATE DEVICES
    • H10K50/00Organic light-emitting devices
    • H10K50/10OLEDs or polymer light-emitting diodes [PLED]
    • H10K50/11OLEDs or polymer light-emitting diodes [PLED] characterised by the electroluminescent [EL] layers

Definitions

  • the present invention relates to a compound for an organic electric device, an organic electric device using the same, and an electronic device thereof.
  • organic light emitting phenomenon refers to a phenomenon of converting electrical energy into light energy using an organic material.
  • An organic electric element using an organic light emitting phenomenon usually has a structure including an anode, a cathode, and an organic material layer therebetween.
  • the organic material layer is often formed of a multi-layered structure composed of different materials in order to increase the efficiency and stability of the organic electric device, for example, it may be made of a hole injection layer, a hole transport layer, a light emitting layer, an electron transport layer and an electron injection layer.
  • Materials used as the organic material layer in the organic electric element may be classified into light emitting materials and charge transport materials such as hole injection materials, hole transport materials, electron transport materials, electron injection materials and the like according to their functions.
  • the LUMO and HOMO levels of the host material have a great influence on the efficiency and lifespan of the organic EL device. As a result, it is possible to prevent efficiency degradation and lifespan reduction due to charge balance control, dopant quenching, and light emission at the hole transport layer interface in the light emitting layer.
  • the energy transfer in the light emitting layer for thermal activated delayed fluorescent (TADF) and exciplex can be identified by the PL lifetime (TRTP) method.
  • the time resolved transient PL (TRTP) method is a method of observing a decay time of a spectrum after a pulsed light source is irradiated to a host thin film. It is a measuring method.
  • TRTP measurement is a measurement method that can distinguish between fluorescence and phosphorescence, and energy transfer method, exciplex energy transfer method, and TADF energy transfer method within a mixed host material.
  • the present invention has been proposed to solve the problems of the phosphorescent host material as described above, the charge balance control, efficiency and lifetime in the light emitting layer by adjusting the HOMO level for the host material of the phosphorescent organic electroluminescent device comprising a phosphorescent dopant Compound which can improve It aims at providing the organic electric element using this and its electronic device.
  • the present invention combines a specific first host material with a specific second host material as a main component to control efficient hole injection in the light emitting layer of the phosphorescent organic electroluminescent device, thereby reducing the energy barrier between the light emitting layer and the adjacent layer. It is possible to maximize the charge balance in the light emitting layer to provide high efficiency and long life of the organic electric device.
  • the present invention provides an organic electric device comprising a first electrode, a second electrode, and an organic material layer formed between the first electrode and the second electrode, wherein the organic material layer includes a light emitting layer, and the light emitting layer is a phosphorescent light emitting layer.
  • an organic electric device comprising a first host compound represented by 1 and a second host compound represented by Formula 2 below.
  • the present invention provides an organic electronic device using the compound represented by the above formula and an electronic device thereof.
  • the mixture according to the present invention as a phosphorescent host material, it is possible to achieve high luminous efficiency and low driving voltage of the organic electric element, and also to greatly improve the life of the element.
  • FIG. 1 is an exemplary view of an organic electroluminescent device according to the present invention.
  • halo or halogen as used herein is fluorine (F), bromine (Br), chlorine (Cl) or iodine (I) unless otherwise indicated.
  • alkyl or “alkyl group” has a single bond of 1 to 60 carbon atoms, unless otherwise indicated, and is a straight chain alkyl group, branched chain alkyl group, cycloalkyl (alicyclic) group, alkyl-substituted cyclo Radicals of saturated aliphatic functional groups, including alkyl groups, cycloalkyl-substituted alkyl groups.
  • heteroalkyl group means that at least one of the carbon atoms constituting the alkyl group has been replaced with a heteroatom.
  • alkenyl group As used herein, the terms “alkenyl group”, “alkenyl group” or “alkynyl group” have a double or triple bond of 2 to 60 carbon atoms, respectively, unless otherwise stated, and include straight or branched chain groups. It is not limited to this.
  • cycloalkyl refers to alkyl forming a ring having 3 to 60 carbon atoms, without being limited thereto.
  • alkoxyl group means an alkyl group to which an oxygen radical is attached, and unless otherwise specified, has a carbon number of 1 to 60, and is limited herein. It is not.
  • alkenoxyl group means an alkenyl group to which an oxygen radical is attached, and unless otherwise stated, it is 2 to 60 It has carbon number of, It is not limited to this.
  • aryloxyl group or “aryloxy group” means an aryl group to which an oxygen radical is attached, and unless otherwise specified, has a carbon number of 6 to 60, but is not limited thereto.
  • aryl group and “arylene group” have a carbon number of 6 to 60 unless otherwise stated, but is not limited thereto.
  • an aryl group or an arylene group means an aromatic of a single ring or multiple rings, and includes an aromatic ring formed by neighboring substituents participating in a bond or a reaction.
  • the aryl group may be a phenyl group, a biphenyl group, a fluorene group, a spirofluorene group.
  • aryl or "ar” means a radical substituted with an aryl group.
  • an arylalkyl group is an alkyl group substituted with an aryl group
  • an arylalkenyl group is an alkenyl group substituted with an aryl group
  • the radical substituted with an aryl group has the carbon number described herein.
  • an arylalkoxy group means an alkoxy group substituted with an aryl group
  • an alkoxylcarbonyl group means a carbonyl group substituted with an alkoxyl group
  • an arylcarbonylalkenyl group means an alkenyl group substituted with an arylcarbonyl group.
  • the arylcarbonyl group is a carbonyl group substituted with an aryl group.
  • heteroalkyl means an alkyl including one or more heteroatoms unless otherwise indicated.
  • heteroaryl group or “heteroarylene group” means an aryl group or arylene group having 2 to 60 carbon atoms, each containing one or more heteroatoms, unless otherwise specified. It may include at least one of a single ring and multiple rings, and may be formed by combining adjacent functional groups.
  • heterocyclic group includes one or more heteroatoms, unless otherwise indicated, and has from 2 to 60 carbon atoms, and includes at least one of single and multiple rings, heteroaliphatic rings and hetero Aromatic rings. Adjacent functional groups may be formed in combination.
  • heteroatom refers to N, O, S, P or Si unless otherwise stated.
  • Heterocyclic groups may also include rings comprising SO 2 instead of carbon forming the ring.
  • a “heterocyclic group” includes the following compounds.
  • aliphatic as used herein means an aliphatic hydrocarbon having 1 to 60 carbon atoms
  • aliphatic ring means an aliphatic hydrocarbon ring having 3 to 60 carbon atoms.
  • ring refers to a fused ring consisting of an aliphatic ring having 3 to 60 carbon atoms or an aromatic ring having 6 to 60 carbon atoms or a hetero ring having 2 to 60 carbon atoms or a combination thereof. Saturated or unsaturated rings.
  • heterocompounds or heteroradicals other than the aforementioned heterocompounds include, but are not limited to, one or more heteroatoms.
  • carbonyl used in the present invention is represented by -COR ', wherein R' is hydrogen, an alkyl group having 1 to 20 carbon atoms, an aryl group having 6 to 30 carbon atoms, and 3 to 30 carbon atoms. Cycloalkyl group, an alkenyl group having 2 to 20 carbon atoms, an alkynyl group having 2 to 20 carbon atoms, or a combination thereof.
  • ether as used herein is represented by -RO-R ', wherein R or R' are each independently of each other hydrogen, an alkyl group having 1 to 20 carbon atoms, It is an aryl group, a C3-C30 cycloalkyl group, a C2-C20 alkenyl group, a C2-C20 alkynyl group, or a combination thereof.
  • substituted in the term “substituted or unsubstituted” as used in the present invention is deuterium, halogen, amino group, nitrile group, nitro group, C 1 ⁇ C 20 alkyl group, C 1 ⁇ C 20 alkoxyl group, C 1 ⁇ C 20 alkylamine group, C 1 ⁇ C 20 alkylthiophene group, C 6 ⁇ C 20 arylthiophene group, C 2 ⁇ C 20 alkenyl group, C 2 ⁇ C 20 alkynyl, C 3 ⁇ C 20 cycloalkyl group, C 6 ⁇ C 20 aryl group, of a C 6 ⁇ C 20 substituted by deuterium aryl group, a C 8 ⁇ C 20 aryl alkenyl group, a silane group, a boron Group, germanium group, and C 2 ⁇ C 20 It is meant to be substituted with one or more substituents selected from the group consist
  • the substituent R 1 when a is an integer of 0, the substituent R 1 is absent, that is, when a is 0, it means that all of the carbons forming the benzene ring are bonded to hydrogen. Omitted formulas and compounds may be omitted.
  • a is an integer of 1
  • one substituent R 1 is bonded to any one of carbons forming a benzene ring, and when a is an integer of 2 or 3, each of them is bonded as follows, and R 1 may be the same or different from each other.
  • a is an integer of 4 to 6
  • the present invention provides an organic electric device comprising a first electrode, a second electrode, and an organic material layer formed between the first electrode and the second electrode, wherein the organic material layer includes a light emitting layer, and the light emitting layer is a phosphorescent light emitting layer.
  • an organic electric device comprising a first host compound represented by 1 and a second host compound represented by Formula 2 below.
  • Ar 1 , Ar 2 , Ar 3 , Ar 4 , Ar 5 , Ar 6 and Ar 7 are each independently hydrogen; heavy hydrogen; halogen; C 6 -C 60 aryl group; Fluorenyl groups; C 2 -C 60 heterocyclic group including at least one hetero atom of O, N, S, Si, P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; C 6 -C 30 aryloxy group; And -L'-N (R a ) (R b ); Or Ar 1 and Ar 2 , or Ar 3 and Ar 4 may be bonded to each other to form a ring,
  • L ' is a single bond; C 6 -C 60 arylene group; Fluorenylene groups; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And a C 2 -C 60 heterocyclic group; selected from the group consisting of R a and R b independently of each other an C 6 -C 60 aryl group; Fluorenyl groups; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And a C 2 -C 60 heterocyclic group including at least one heteroatom of O, N, S, Si, and P, and
  • L 1 , L 2 , L 3 , L 4 and L 5 are each independently a single bond; C 6 ⁇ C 60 arylene group; Fluorenylene groups; Or a C 2 to C 60 heteroarylene group including at least one heteroatom of O, N, S, Si, and P;
  • X 1 is O or S
  • Rings A and B are each independently of the other C 6 ⁇ C 20 aryl group; Or a C 2 -C 20 heterocyclic group,
  • X 2 is a single bond, NL 6 -Ar 7 , O, S or CR'R ",
  • R 'and R are each independently hydrogen; C 6 ⁇ C 60 aryl group; Fluorenyl group; C 3 ⁇ C 60 Heterocyclic group; or C 1 ⁇ C 50 Alkyl group; R' and R" Can combine with each other to form a ring as a spy,
  • x is an integer of 0-4, y is an integer of 0-3, R c and R d are each independently hydrogen; C 6 ⁇ C 60 Aryl group; Fluorenyl group; C 2 ⁇ C 60 heterocyclic group containing at least one heteroatom of O, N, S, Si and P; Fused ring group of an aromatic ring of C 3 ⁇ C 60 of aliphatic rings and C 6 ⁇ C 60; C 1 ⁇ C 50 Alkyl group; C 2 ⁇ C 20 Alkenyl group; Alkynyl groups of C 2 to C 20 ; C 1 -C 30 alkoxyl group; C 6 -C 30 aryloxy group; And -L'-N (R a ) (R b ); Is selected from the group consisting of
  • aryl group, fluorenyl group, arylene group, heterocyclic group, fluorenylene group, fused ring group, alkyl group, alkenyl group, alkoxy group and aryloxy group are each deuterium; halogen; Silane group; Siloxane groups; Boron group; Germanium group; Cyano group; Nitro group; Import alkylthio of C 1 -C 20; An alkoxyl group of C 1 -C 20 ; An alkyl group of C 1 -C 20 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; Aryl group of C 6 -C 20 ; C 6 -C 20 aryl group substituted with deuterium; Fluorenyl group; C 2 -C 20 heterocyclic group; A cycloalkyl group of C 3 -C 20 ; C 7 -C 20 arylalkyl group and C 8 -C 20
  • the present invention provides an organic electroluminescent device comprising a compound represented by any one of the formulas A-1 to A-7 independently of each other in A and B in the general formula (1).
  • Z 1 to Z 48 are independently of each other CR c or N,
  • Z 1 to Z 48 bonded to L 1 to L 3 are carbon (C),
  • R c is the same as defined above for R a ,
  • the present invention provides an organic electroluminescent device comprising a compound represented by any one of L 1 to L 5 in the formula (1) or formula (2).
  • Y is NL 5 -Ar 7 , O, S or CR d R e ,
  • L 5 is the same as defined above in L 3 ,
  • Ar 7 is the same as defined in Ar 5 ,
  • R d and R e are the same as defined above for R a ,
  • a, c, d and e are each independently an integer from 0 to 4, b is an integer from 0 to 6,
  • f and g are each independently an integer of 0 to 3
  • h is an integer of 0 to 2
  • i is an integer of 0 or 1
  • R 1 , R 2 and R 3 are independently of each other hydrogen; heavy hydrogen; Tritium; halogen; Cyano group; Nitro group; C 6 -C 60 aryl group; Fluorenyl group; C 2 -C 60 heterocyclic group including at least one heteroatom selected from the group consisting of O, N, S, Si and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; C 6 -C 30 aryloxy group; And -L a -N (R f ) (R g ); or when a, b, c, d, e, f and g are 2 or more, and h is 2 or more, respectively A plurality of R
  • L a is a single bond; C 6 -C 60 arylene group; Fluorenylene groups; A C 2 -C 60 heterocyclic group comprising at least one hetero atom of O, N, S, Si, and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And an aliphatic hydrocarbon group of C 3 -C 60 ; wherein R f and R g are independently of each other an aryl group of C 6 -C 60 ; Fluorenyl groups; C 2 -C 60 heterocyclic group including at least one hetero atom selected from the group consisting of O, N, S, Si and P; And a fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 .
  • Z 49 , Z 50 and Z 51 are independently of each other CR h or N, and at least one of Z 49 , Z 50 and Z 51 is N,
  • R h is hydrogen; heavy hydrogen; Tritium; halogen; Cyano group; Nitro group; C 6 -C 60 aryl group; Fluorenyl groups; C 2 -C 60 heterocyclic group including at least one heteroatom selected from the group consisting of O, N, S, Si and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; And an C 6 -C 30 aryloxy group; adjacent R 1 and R h may be bonded to each other to form an aromatic ring or a heteroaromatic ring.
  • the present invention provides an organic electroluminescent device comprising a compound represented by any one of the following formula (3) to the first host compound represented by the formula (1).
  • X 1 , A, B, L 1 , L 2 , Ar 2 , Ar 3 and Ar 4 are as defined above,
  • W is NL 7 -Ar 8 , O, S, or CR i R j ,
  • L 6 and L 7 are the same as the definition of L 4 ,
  • Ar 8 is the same as defined in Ar 5 ,
  • R i and R j are the same as the definition of R a ,
  • Two Ar 8 are each the same or different, two W are each the same or different, two C are the same or different, and two D are the same or different.
  • the present invention provides an organic electroluminescent device comprising a compound represented by Chemical Formula 1, wherein the first host compound is represented by Chemical Formula 1.
  • X 1 , Ar 2 , Ar 3 and Ar 4 are as defined above,
  • Z 1 , Z 2 , Z 3 and Z 4 are independently of each other CR c or N,
  • Z 1 to Z 4 bonded to N are carbon (C)
  • R c is the same as defined above for R a ,
  • W is NL 7 -Ar 8 , O, S, or CR i R j ,
  • L 7 is the same as defined above in L 4 ,
  • Ar 8 is the same as defined in Ar 5 ,
  • R i and R j is as defined above R a. ⁇
  • the first host compound represented by Chemical Formula 1 provides an organic electric device including the compound represented by Chemical Formula 7, Chemical Formula 8, or Chemical Formula 9 below.
  • X 1 , Ar 2 , Ar 3 and Ar 4 , Z 1 , Z 2 , Z 3 , Z 4 , and W are as defined above.
  • the present invention provides an organic electroluminescent device including a compound represented by any one of the following Chemical Formulas 10 to 13, wherein the second host compound represented by Chemical Formula 2 is present.
  • the present invention provides an organic electroluminescent device comprising a compound represented by the following formula 14 is the second host compound represented by the formula (2).
  • X 3 is the same as the definition of X 2 above,
  • R e and R f are the same as the definitions of R d and R c ,
  • n is the same as y and m is the definition of x ⁇
  • the present invention provides an organic electroluminescent device comprising a compound represented by the formula (15) to the second host compound represented by the formula (2).
  • X 2 , L 3 , L 4 , L 5 , Ar 5 , R c , R d , x, y, X 3 , R e , R f , m, n are as defined above ⁇
  • the present invention includes a compound represented by the formula (2), and provides a compound represented by the formula (19).
  • A is the following formula A-1 or formula A-2,
  • X 11 and X 12 are each independently O or S,
  • a ', b', c 'and d' are each independently 0 or 1,
  • Ar 11 , Ar 12 , Ar 13 and Ar 14 are each independently a C 6 -C 18 aryl group. ⁇
  • the compound represented by Chemical Formula 19 includes a compound represented by the following Chemical Formula 20 or Chemical Formula 21.
  • the present invention includes a compound represented by the following Chemical Formula 22, which is a compound represented by Chemical Formula 2, and provides such a compound.
  • Such a compound may be mixed with a second host such as Bis-carbazole, tertiary amine, polycyclic heterocyclic compound, and used in the light emitting layer.
  • a second host such as Bis-carbazole, tertiary amine, polycyclic heterocyclic compound, and used in the light emitting layer.
  • A is the following Formula A-1 or A-2,
  • Ar 11 is an aryl group of C 6 -C 18 ,
  • X 11 , X 12 and X 13 are each independently O or S,
  • n' and n' are each independently 0 or 1
  • a 'and c' are each independently an integer of 0 to 5
  • d represents the integer of any one of 0-4,
  • R 21 is an aryl group of C 6 -C 18 .
  • Ar 13 and Ar 14 are each independently a C 6 -C 18 aryl group. ⁇
  • the compound represented by Chemical Formula 22 may be represented by the following Chemical Formula 23 or Chemical Formula 24, and the present invention provides such a compound.
  • the compound included in Formula 2 may be used in the light emitting layer by mixing with a second host such as Bis-carbazole, tertiary amine, polycyclic heterocyclic compound, and more specifically, the compound included in Formula 19 or Formula 22 may be used. .
  • the first host compound represented by Formula 1 includes the following compound 1-1 to compound 1-175.
  • the second host compound represented by Chemical Formula 2 in the present invention includes the following compound. That is, compound 1'-1 to 1'-84, 2-1 to 2-60, 3-1 to 3-36, P-1 to P-120, 4-1 to 4-12, 5-1 to 5 -20, 6-1 to 6-16 and 7-1 to 7-24.
  • the organic electric device 100 includes a first electrode 120, a second electrode 180, and a first electrode 120 and a second electrode formed on a substrate 110.
  • An organic material layer including a compound represented by Chemical Formula 1 is provided between 180.
  • the first electrode 120 may be an anode (anode)
  • the second electrode 180 may be a cathode (cathode)
  • the first electrode may be a cathode and the second electrode may be an anode.
  • the organic material layer may sequentially include the hole injection layer 130, the hole transport layer 140, the light emitting layer 150, the light emitting auxiliary layer 151, the electron transport layer 160, and the electron injection layer 170 on the first electrode 120. It may include. At this time, the remaining layers except for the light emitting layer 150 may not be formed.
  • the hole blocking layer, the electron blocking layer, the light emitting auxiliary layer 151, the electron transport auxiliary layer, the buffer layer 141 may be further included, and the electron transport layer 160 may serve as the hole blocking layer.
  • the organic electronic device according to the present invention may further include a protective layer formed on one surface of the first electrode and the second electrode opposite to the organic material layer.
  • the organic electroluminescent device may be manufactured using a PVD method.
  • a metal or conductive metal oxide or an alloy thereof is deposited on a substrate to form an anode, and the hole injection layer 130, the hole transport layer 140, the light emitting layer 150, the electron transport layer 160 are disposed thereon.
  • the organic material layer including the electron injection layer 170 it can be prepared by depositing a material that can be used as a cathode thereon.
  • the light emitting auxiliary layer 151 may be further formed between the hole transport layer 140 and the light emitting layer 150, and an electron transport auxiliary layer may be further formed between the light emitting layer 150 and the electron transport layer 160.
  • the present invention includes at least one hole transport band layer between the first electrode and the light emitting layer, the hole transport band layer includes a hole transport layer, a light emitting auxiliary layer or both, the hole transport band layer It provides an organic electric device comprising the compound represented by the formula (1).
  • the present invention provides an organic electroluminescent device included in the light emitting layer by mixing the compound represented by Formula 1 and Formula 2 in any one ratio of 1: 9 to 9: 1, preferably 1: 9 to 5: 5, more preferably, it is mixed in a ratio of 2: 8 or 3: 7 and included in the light emitting layer.
  • the organic electroluminescent device further includes a light efficiency improvement layer formed on at least one of one side of the first electrode opposite to the organic material layer or one side of the second electrode opposite to the organic material layer.
  • An organic electric device is provided.
  • the organic material layer is formed by any one of a spin coating process, a nozzle printing process, an inkjet printing process, a slot coating process, a dip coating process and a roll-to-roll process, the organic material layer according to the present invention can be formed in various ways Therefore, the scope of the present invention is not limited by the formation method.
  • the organic electric element according to an embodiment of the present invention may be a top emission type, a bottom emission type or a double-sided emission type according to the material used.
  • WOLED White Organic Light Emitting Device
  • Various structures for white organic light emitting devices mainly used as backlight devices have been proposed and patented. Representatively, a side-by-side method in which R (Red), G (Green), and B (Blue) light emitting parts are mutually planarized, and a stacking method in which R, G, and B light emitting layers are stacked up and down. And a color conversion material (CCM) method using photo-luminescence of an inorganic phosphor by using electroluminescence by a blue (B) organic light emitting layer and light therefrom. May also be applied to these WOLEDs.
  • CCM color conversion material
  • the present invention is a display device comprising the above-mentioned organic electric element; And a controller for driving the display device.
  • the organic electronic device provides an electronic device according to the present invention, wherein the organic electroluminescent device is at least one of an organic electroluminescent device, an organic solar cell, an organic photoconductor, an organic transistor, and a monochromatic or white illumination device.
  • the electronic device may be a current or future wired or wireless communication terminal, and includes all electronic devices such as a mobile communication terminal such as a mobile phone, a PDA, an electronic dictionary, a PMP, a remote controller, a navigation device, a game machine, various TVs, and various computers.
  • Final product 1 Compound represented by Formula 1 according to the present invention (final product 1) is synthesized by reacting Sub 1 and Sub 2 as shown in Scheme 1, but is not limited thereto.
  • X 1 , A, B, L 1 , L 2 , Ar 1 to Ar 4 are the same as defined in Formula 1, and Hal 1 is Br or Cl.
  • Sub 1-5-c (7.16 g, 24.06 mmol) obtained in the above synthesis was dissolved in toluene (240 ml) in a round bottom flask, and then Sub 2-11 (5.28 g, 24.06 mmol) and Pd 2 (dba) 3 (0.66) g, 0.72 mmol), P ( t -Bu) 3 (0.49 g, 2.41 mmol), NaO t -Bu (4.62 g, 48.12 mmol) were added and stirred at 80 ° C.
  • the compound belonging to Sub 1 may be, but is not limited to, the following compounds.
  • Table 1 shows FD-MS (Field Desorption-Mass Spectrometry) values of some compounds belonging to Sub 1.
  • Sub 2 of Scheme 3 may be synthesized by the reaction route of Scheme 3 (disclosed in Korean Patent Registration No. 10-1251451 (published on April 5, 2013) of the present applicant), but is not limited thereto.
  • Z 1 is Ar 1 or Ar 3
  • Z 2 is Ar 2 or Ar 4 .
  • Compounds belonging to Sub 2 may be the following compounds, but are not limited thereto, and Table 2 shows Field Desorption-Mass Spectrometry (FD-MS) values of some compounds belonging to Sub 2.
  • FD-MS Field Desorption-Mass Spectrometry
  • Sub 1-1 (5.97 g, 13.87 mmol) obtained in the synthesis was dissolved in toluene (140 ml) in a round bottom flask, and then Sub 2-17 (3.74 g, 13.87 mmol), Pd 2 (dba) 3 (0.38 g, 0.42 mmol), P ( t -Bu) 3 (0.28 g, 1.39 mmol), NaO t -Bu (2.67 g, 27.74 mmol) were added and stirred at 100 ° C.
  • Compound represented by the formula (2) according to the invention can be prepared by the reaction of Sub 3 and Sub 4, as shown in Scheme 4, but is not limited thereto.
  • Sub 1 (28) (40.8g, 80 mmol) and Sub 2 (10) (37.0g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (45.4g, 70%).
  • Sub 1 (34) (44.0g, 80 mmol) and Sub 2 (29) (29.6g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (41.2g, 68%).
  • Sub 1 (38) (50.7g, 80 mmol) and Sub 2 (24) (37.0g, 80 mmol) were obtained using the synthesis method of 1'-1 to give the product (51.6g, 69%).
  • Sub 1 (27) (40.8g, 80 mmol) and Sub 2 (36) (49.2g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (53.9g, 70%).
  • Sub 1 (25) (34.7g, 80 mmol) and Sub 2 (39) (47.9g, 80 mmol) were obtained using the synthesis method of 1-1 to obtain the product (45.9g, 66%).
  • Sub 1 (37) (28.6g, 80mmol) and Sub 2 (10) (37.0g, 80mmol) were obtained using the synthesis method of 1'-1 to obtain the product (38.9g, 74%).
  • N 1- (naphthalen-2-yl) -N 4 , N 4 -bis (4- (naphthalen-2-yl (phenyl) amino) phenyl ) -N 1 -phenylbenzene-1,4-diamine (abbreviated as 2-TNATA) membrane was vacuum deposited to form a thickness of 60 nm.
  • 2,4-bis [N- (1-naphthyl) -N-phenylamino] biphenyl (hereinafter abbreviated as -NPD) was vacuum-deposited to a thickness of 60 nm as a hole transporting compound on the membrane to form a hole transport layer.
  • BAlq (1,1'-bisphenyl) -4-oleito) bis (2-methyl-8-quinoline oleito) aluminum
  • BAlq the electron transport layer Tris (8-quinolinol) aluminum
  • Alq3 the electron transport layer Tris (8-quinolinol) aluminum
  • An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 1 was used alone as a host.
  • An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 2 was used alone as a host.
  • An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 3 was used alone.
  • An organic electroluminescent device was manufactured in the same manner as in Example 1, except that the compound represented by Formula 2 was used alone as a host.
  • An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 1 and the compound represented by Chemical Formula 2 were used as a host.
  • An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 2 and the compound represented by Chemical Formula 2 were used as a host.
  • An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 3 and the compound represented by Chemical Formula 2 were used as a host.
  • Example 1 to Example 56 used as a host by mixing the compound of the formula (1) and formula (2) of the present invention showed a markedly improved effect.
  • the inventors of the present invention determine that each of the substances of the compound of Formula 1 and the compound of Formula 2 have new characteristics other than those of the substances, based on the experimental results, the substance of Formula 1, the substance of Formula 2 , PL lifetime was measured using the mixture of the present invention.
  • the compounds of the present invention were mixed with Chemical Formula 1 and Chemical Formula 2, it was confirmed that a new PL wavelength was formed differently from a single compound. It was confirmed that the decrease and disappearance time increased from about 60 times to as much as about 360 times.
  • the mixed thin film is an important example showing the exciplex energy transfer and the light emission process.
  • the combination of the present invention is superior to Comparative Examples 6 to 8 used as a phosphorescent host mixed with a comparative compound by using a compound represented by the formula (1) in which one more amine group is added in Comparative Compounds 2 and 3 to improve the hole characteristics.
  • Electrochemically synergistic effect with the compound represented by the general formula (2) having a strong electron properties thereby increasing the charge balance in the light emitting layer of holes and electrons, thereby emitting light in the light emitting layer rather than the hole transport layer interface, thereby the HTL interface Deterioration is also reduced, which maximizes the driving voltage, efficiency and lifetime of the device.
  • N 1- (naphthalen-2-yl) -N 4 , N 4 -bis (4- (naphthalen-2-yl (phenyl) amino) phenyl ) -N 1 -phenylbenzene-1,4-diamine (abbreviated as 2-TNATA) membrane was vacuum deposited to form a thickness of 60 nm.
  • 2,4-bis [N- (1-naphthyl) -N-phenylamino] biphenyl (hereinafter abbreviated as -NPD) was vacuum-deposited to a thickness of 60 nm as a hole transporting compound on the membrane to form a hole transport layer.
  • the inventive compound represented by the formula (19) or (21) was used as a host, and the dopant was 30 nm thick on the hole transport layer by doping Ir (ppy) 3 [tris (2-phenylpyridine) -iridium] at a 5: 5 weight.
  • the light emitting layer of was deposited.
  • BAlq (1,1'-bisphenyl) -4-oleito) bis (2-methyl-8-quinoline oleito) aluminum
  • BAlq the electron transport layer Tris (8-quinolinol) aluminum
  • Alq3 the electron transport layer Tris (8-quinolinol) aluminum
  • the electroluminescent (EL) characteristics of the Example and Comparative Example organic electroluminescent devices manufactured as described above were applied to the PR-650 of photoresearch by applying a forward bias DC voltage.
  • the T95 life was measured using a life measurement instrument manufactured by McScience.
  • the following table shows the results of device fabrication and evaluation.
  • the organic electroluminescent device was manufactured by the same method as Experimental Example 3, except that Comparative Compounds 4 to 7 were used as single hosts.
  • the organic electroluminescent device using the compound of the present invention as a phosphorescent host significantly improves driving voltage, efficiency, and lifetime as compared to the organic electroluminescent device using the comparative compound.
  • the difference between Comparative Compound 4 and the present invention is the difference in the presence or absence of a linking group of m-phenylene
  • Comparative Compound 5 and Comparative Compound 6 is the difference in the presence or absence of secondary substituents such as phenyl and biphenyl in dibenzouran
  • Comparative Compound 7 is substituted for dibenzofuran There is a difference depending on the number.
  • the linkage of m-phenylene has the effect of improving the efficiency, and the dibenzouran secondary substituent has the effect of significantly improving the life.
  • the energy level (HOMO level, LUMO level, T1 level) of the compound is remarkably changed as the specific substituent is substituted even in the same core, and the difference in the physical properties of the compound is a major factor in improving device performance during device deposition (for example, such as energy balance), suggesting that these different device results can be derived.
  • the present invention it is possible to manufacture an organic device having excellent device characteristics of high brightness, high light emission and long life, and there is industrial applicability.

Abstract

The present invention provides: a novel mixture capable of improving luminous efficiency, stability, and lifespan of an element; an organic electric element using same; and an electronic device therefor.

Description

유기전기소자용 화합물, 이를 이용한 유기전기소자 및 그 전자 장치Compound for organic electric device, organic electric device using same and electronic device thereof
본 발명은 유기전기소자용 화합물, 이를 이용한 유기전기소자 및 그 전자 장치에 관한 것이다.The present invention relates to a compound for an organic electric device, an organic electric device using the same, and an electronic device thereof.
일반적으로 유기 발광 현상이란 유기 물질을 이용하여 전기에너지를 빛 에너지로 전환시켜주는 현상을 말한다. 유기 발광 현상을 이용하는 유기전기소자는 통상 양극과 음극 및 이 사이에 유기물층을 포함하는 구조를 가진다. 여기서 유기물층은 유기전기소자의 효율과 안정성을 높이기 위하여 각기 다른 물질로 구성된 다층의 구조로 이루어진 경우가 많으며, 예컨대 정공주입층, 정공수송층, 발광층, 전자수송층 및 전자주입층 등으로 이루어질 수 있다.In general, organic light emitting phenomenon refers to a phenomenon of converting electrical energy into light energy using an organic material. An organic electric element using an organic light emitting phenomenon usually has a structure including an anode, a cathode, and an organic material layer therebetween. In this case, the organic material layer is often formed of a multi-layered structure composed of different materials in order to increase the efficiency and stability of the organic electric device, for example, it may be made of a hole injection layer, a hole transport layer, a light emitting layer, an electron transport layer and an electron injection layer.
유기전기소자에서 유기물층으로 사용되는 재료는 기능에 따라, 발광재료와 전하수송 재료, 예컨대 정공주입 재료, 정공수송 재료, 전자수송 재료, 전자주입 재료 등으로 분류될 수 있다.Materials used as the organic material layer in the organic electric element may be classified into light emitting materials and charge transport materials such as hole injection materials, hole transport materials, electron transport materials, electron injection materials and the like according to their functions.
헤테로원자를 포함하고 있는 비스타입의 고리화합물의 경우 물질 구조에 따른 특성의 차이가 매우 커서 유기전기소자의 재료로 다양한 층에 적용되고 있다. 특히 환의 개수 및 fused 위치, 헤테로원자의 종류와 배열에 따라 밴드 갭(HOMO, LUMO), 전기적 특성, 화학적 특성, 물성 등이 상이한 특징을 갖고 있어, 이를 이용한 다양한 유기전기소자의 층에 대한 적용 개발이 진행되어 왔다.In the case of bis type cyclic compounds containing heteroatoms, the difference in characteristics depending on the material structure is so great that they are applied to various layers as materials of organic electric devices. In particular, band gaps (HOMO, LUMO), electrical properties, chemical properties, and physical properties are different depending on the number of rings, the fused position, and the type and arrangement of heteroatoms. This has been going on.
인광 발광 도펀트 재료를 이용하는 인광형 유기전기소자에 있어서 호스트 물질의 LUMO, 및 HOMO level은 유기전기소자의 효울 및 수명에 매우 큰 영향을 주는 요인으로서 발광층 내 전자 및 정공 주입을 효율적으로 조절 가능하냐에 따라 발광층 내 charge balance 조절, 도펀트 퀜칭(quenching) 및 정공수송층 계면에서의 발광으로 인한 효율 저하 및 수명 저하를 방지할 수 있다.In the phosphorescent organic EL device using the phosphorescent dopant material, the LUMO and HOMO levels of the host material have a great influence on the efficiency and lifespan of the organic EL device. As a result, it is possible to prevent efficiency degradation and lifespan reduction due to charge balance control, dopant quenching, and light emission at the hole transport layer interface in the light emitting layer.
형광 및 인광 발광용 호스트 물질의 경우 최근들어 TADF(Thermal activatied delayed fluorescent), Exciplex 등을 이용한 유기전기소자의 효율 증가 및 수명 증가 등을 연구하고 있으며, 특히 호스트 물질에서 도펀트 물질로의 에너지 전달 방법 규명에 많은 연구가 진행되고 있다.In the case of fluorescent and phosphorescent light emitting materials, researches on increasing efficiency and lifespan of organic electric devices using thermally activated delayed fluorescent (TADF) and Exciplex have recently been conducted. Especially, the method of energy transfer from host materials to dopant materials has been investigated. There is a lot of research going on.
TADF (Thermal activated delayed fluorescent), exciplex에 대한 발광층 내 에너지 전달 규명은 여러 가지 방법들이 있지만, PL lifetime (TRTP) 측정법으로 손쉽게 확인할 수 있다.The energy transfer in the light emitting layer for thermal activated delayed fluorescent (TADF) and exciplex can be identified by the PL lifetime (TRTP) method.
TRTP (Time resolved transient PL) 측정법은 펄스 광원을 호스트 박막에 조사한 후, 시간에 따른 스펙트럼의 감소(Decay time)를 관찰하는 방식으로서 에너지 전달 및 발광 지연시간 관찰을 통해 에너지 전달 방식을 규명할 수 있는 측정방법이다. 상기 TRTP 측정은 형광과 인광의 구분 및 mixed 호스트 물질 내에서의 에너지 전달방식, exciplex 에너지 전달방식, TADF 에너지 전달 방식 등을 구분해 줄 수 있는 측정법이다.The time resolved transient PL (TRTP) method is a method of observing a decay time of a spectrum after a pulsed light source is irradiated to a host thin film. It is a measuring method. The TRTP measurement is a measurement method that can distinguish between fluorescence and phosphorescence, and energy transfer method, exciplex energy transfer method, and TADF energy transfer method within a mixed host material.
이처럼 호스트 물질로부터 도펀트 물질로 에너지가 전달되는 방식에 따라 효율 및 수명에 영향을 주는 다양한 요인들이 존재하며, 물질에 따라 에너지 전달 방식이 상이하여, 아직까지 안정되고 효율적인 유기전기소자용 호스트 재료의 개발이 충분히 이루어지지 않은 상태이다. 따라서 새로운 재료의 개발이 계속 요구되고 있으며, 특히 발광층의 호스트 물질에 대한 개발이 절실히 요구되고 있다.As such, there are various factors that affect efficiency and lifespan depending on the way energy is transferred from the host material to the dopant material, and the energy transfer method differs depending on the material. This is not enough. Therefore, the development of new materials is continuously required, and in particular, the development of the host material of the light emitting layer is urgently required.
참고 선행기술문헌으로는 KR101170666 B1을 이용하였다.Reference KR101170666 B1 was used as the prior art document.
본 발명은 상기와 같은 인광 호스트 물질의 문제점을 해결하기 위하여 제안된 것으로, 인광 도펀트를 포함하는 인광 발광형 유기전기소자의 호스트 물질에 대한 HOMO level 조절을 통한 발광층 내 charge balance 조절 및 효율, 수명을 향상시킬 수 있는 화합물 이를 이용한 유기전기소자 및 그 전자장치를 제공하는 것을 목적으로 한다.The present invention has been proposed to solve the problems of the phosphorescent host material as described above, the charge balance control, efficiency and lifetime in the light emitting layer by adjusting the HOMO level for the host material of the phosphorescent organic electroluminescent device comprising a phosphorescent dopant Compound which can improve It aims at providing the organic electric element using this and its electronic device.
본 발명은 인광 발광형 유기전기소자의 발광층 내 효율적인 정공 주입을 조절하기 위해 주성분으로서 특정의 제 1호스트 재료에 특정의 제 2호스트 재료를 조합하여 함유함으로써, 발광층과 인접층의 에너지 장벽을 작게 할 수 있고, 발광층 내 charge balance를 최대화 시켜 유기전기소자의 고효율, 고수명을 제공하는 것이다.The present invention combines a specific first host material with a specific second host material as a main component to control efficient hole injection in the light emitting layer of the phosphorescent organic electroluminescent device, thereby reducing the energy barrier between the light emitting layer and the adjacent layer. It is possible to maximize the charge balance in the light emitting layer to provide high efficiency and long life of the organic electric device.
본 발명은 제 1전극, 제 2전극 및 상기 제 1전극과 상기 제 2전극 사이에 형성된 유기물층을 포함하는 유기전기소자에 있어서, 상기 유기물층은 발광층을 포함하고, 상기 발광층은 인광성 발광층으로서 하기 화학식 1로 표시되는 제 1호스트 화합물 및 하기 화학식 2로 표시되는 제 2호스트 화합물을 포함하는 것을 특징으로 하는 유기전기소자를 제공한다.The present invention provides an organic electric device comprising a first electrode, a second electrode, and an organic material layer formed between the first electrode and the second electrode, wherein the organic material layer includes a light emitting layer, and the light emitting layer is a phosphorescent light emitting layer. Provided is an organic electric device comprising a first host compound represented by 1 and a second host compound represented by Formula 2 below.
화학식 1 화학식 2Formula 1 Formula 2
Figure PCTKR2019003116-appb-I000001
Figure PCTKR2019003116-appb-I000001
또한, 본 발명은 상기 화학식들로 표시되는 화합물을 이용한 유기전기소자 및 그 전자장치를 제공한다.In addition, the present invention provides an organic electronic device using the compound represented by the above formula and an electronic device thereof.
본 발명에 따른 혼합물을 인광 호스트 물질로 이용함으로써, 유기전기소자의 높은 발광효율, 낮은 구동전압을 달성할 수 있으며, 또한 소자의 수명을 크게 향상시킬 수 있다.By using the mixture according to the present invention as a phosphorescent host material, it is possible to achieve high luminous efficiency and low driving voltage of the organic electric element, and also to greatly improve the life of the element.
도 1은 본 발명에 따른 유기전기발광소자의 예시도이다.1 is an exemplary view of an organic electroluminescent device according to the present invention.
100 : 유기전기소자 110 : 기판100: organic electric element 110: substrate
120 : 제 1전극(양극) 130 : 정공주입층120: first electrode (anode) 130: hole injection layer
140 : 정공수송층 141 : 버퍼층140: hole transport layer 141: buffer layer
150 : 발광층 151 : 발광보조층150 light emitting layer 151 light emitting auxiliary layer
160 : 전자수송층 170 : 전자주입층160: electron transport layer 170: electron injection layer
180 : 제 2전극(음극)180: second electrode (cathode)
이하, 본 발명의 실시예를 참조하여 상세하게 설명한다. 본 발명을 설명함에 있어, 관련된 공지 구성 또는 기능에 대한 구체적인 설명이 본 발명의 요지를 흐릴 수 있다고 판단되는 경우에는 그 상세한 설명은 생략한다.Hereinafter, with reference to the embodiment of the present invention will be described in detail. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.
또한, 본 발명의 구성 요소를 설명하는 데 있어서, 제 1, 제 2, A, B, (a), (b) 등의 용어를 사용할 수 있다. 이러한 용어는 그 구성 요소를 다른 구성요소와 구별하기 위한 것일 뿐, 그 용어에 의해 해당 구성 요소의 본질이나 차례 또는 순서 등이 한정되지 않는다. 어떤 구성 요소가 다른 구성 요소에 "연결", "결합" 또는 "접속"된다고 기재된 경우, 그 구성 요소는 그 다른 구성 요소에 직접적으로 연결되거나 또는 접속될 수 있지만, 각 구성 요소 사이에 또 다른 구성 요소가 "연결", "결합" 또는 "접속"될 수도 있다고 이해되어야 할 것이다.In addition, in describing the component of this invention, terms, such as 1st, 2nd, A, B, (a), (b), can be used. These terms are only to distinguish the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected to or connected to that other component, but there may be another configuration between each component. It is to be understood that the elements may be "connected", "coupled" or "connected".
본 명세서 및 첨부된 청구의 범위에서 사용된 바와 같이, 달리 언급하지 않는 한, 하기 용어의 의미는 하기와 같다: As used in this specification and the appended claims, unless otherwise indicated, the meanings of the following terms are as follows:
본 명세서에서 사용된 용어 "할로" 또는 "할로겐"은 다른 설명이 없는 한 불소(F), 브롬(Br), 염소(Cl) 또는 요오드(I)이다.The term "halo" or "halogen" as used herein is fluorine (F), bromine (Br), chlorine (Cl) or iodine (I) unless otherwise indicated.
본 발명에 사용된 용어 "알킬" 또는 "알킬기"는 다른 설명이 없는 한 1 내지 60의 탄소수의 단일결합을 가지며, 직쇄 알킬기, 분지쇄 알킬기, 사이클로알킬(지환족)기, 알킬-치환된 사이클로알킬기, 사이클로알킬-치환된 알킬기를 비롯한 포화 지방족 작용기의 라디칼을 의미한다.As used herein, the term "alkyl" or "alkyl group" has a single bond of 1 to 60 carbon atoms, unless otherwise indicated, and is a straight chain alkyl group, branched chain alkyl group, cycloalkyl (alicyclic) group, alkyl-substituted cyclo Radicals of saturated aliphatic functional groups, including alkyl groups, cycloalkyl-substituted alkyl groups.
본 발명에 사용된 용어 "할로알킬기" 또는 "할로겐알킬기"는 다른 설명이 없는 한 할로겐으로 치환된 알킬기를 의미한다. As used herein, the term "haloalkyl group" or "halogenalkyl group" means an alkyl group substituted with halogen unless otherwise specified.
본 발명에 사용된 용어 "헤테로알킬기"는 알킬기를 구성하는 탄소원자 중 하나 이상이 헤테로원자로 대체된 것을 의미한다.The term "heteroalkyl group" as used herein means that at least one of the carbon atoms constituting the alkyl group has been replaced with a heteroatom.
본 발명에 사용된 용어 "알켄일기", "알케닐기" 또는 "알킨일기"는 다른 설명이 없는 한 각각 2 내지 60의 탄소수의 이중결합 또는 삼중결합을 가지며, 직쇄형 또는 측쇄형 사슬기를 포함하며, 여기에 제한되는 것은 아니다.As used herein, the terms "alkenyl group", "alkenyl group" or "alkynyl group" have a double or triple bond of 2 to 60 carbon atoms, respectively, unless otherwise stated, and include straight or branched chain groups. It is not limited to this.
본 발명에 사용된 용어 "시클로알킬"은 다른 설명이 없는 한 3 내지 60의 탄소수를 갖는 고리를 형성하는 알킬을 의미하며, 여기에 제한되는 것은 아니다.The term "cycloalkyl" as used herein, unless otherwise stated, refers to alkyl forming a ring having 3 to 60 carbon atoms, without being limited thereto.
본 발명에 사용된 용어 "알콕실기", "알콕시기", 또는 "알킬옥시기"는 산소 라디칼이 부착된 알킬기를 의미하며, 다른 설명이 없는 한 1 내지 60의 탄소수를 가지며, 여기에 제한되는 것은 아니다.As used herein, the term "alkoxyl group", "alkoxy group", or "alkyloxy group" means an alkyl group to which an oxygen radical is attached, and unless otherwise specified, has a carbon number of 1 to 60, and is limited herein. It is not.
본 발명에 사용된 용어 "알켄옥실기", "알켄옥시기", "알켄일옥실기", 또는 "알켄일옥시기"는 산소 라디칼이 부착된 알켄일기를 의미하며, 다른 설명이 없는 한 2 내지 60의 탄소수를 가지며, 여기에 제한되는 것은 아니다.As used herein, the term "alkenoxyl group", "alkenoxy group", "alkenyloxyl group", or "alkenyloxy group" means an alkenyl group to which an oxygen radical is attached, and unless otherwise stated, it is 2 to 60 It has carbon number of, It is not limited to this.
본 발명에 사용된 용어 "아릴옥실기" 또는 "아릴옥시기"는 산소 라디칼이 부착된 아릴기를 의미하며, 다른 설명이 없는 한 6 내지 60의 탄소수를 가지며, 여기에 제한되는 것은 아니다.As used herein, the term "aryloxyl group" or "aryloxy group" means an aryl group to which an oxygen radical is attached, and unless otherwise specified, has a carbon number of 6 to 60, but is not limited thereto.
본 발명에 사용된 용어 "아릴기" 및 "아릴렌기"는 다른 설명이 없는 한 각각 6 내지 60의 탄소수를 가지며, 이에 제한되는 것은 아니다. 본 발명에서 아릴기 또는 아릴렌기는 단일 고리 또는 다중 고리의 방향족을 의미하며, 이웃한 치환기가 결합 또는 반응에 참여하여 형성된 방향족 고리를 포함한다. 예컨대, 아릴기는 페닐기, 비페닐기, 플루오렌기, 스파이로플루오렌기일 수 있다.As used herein, the terms "aryl group" and "arylene group" have a carbon number of 6 to 60 unless otherwise stated, but is not limited thereto. In the present invention, an aryl group or an arylene group means an aromatic of a single ring or multiple rings, and includes an aromatic ring formed by neighboring substituents participating in a bond or a reaction. For example, the aryl group may be a phenyl group, a biphenyl group, a fluorene group, a spirofluorene group.
접두사 "아릴" 또는 "아르"는 아릴기로 치환된 라디칼을 의미한다. 예를 들어 아릴알킬기는 아릴기로 치환된 알킬기이며, 아릴알켄일기는 아릴기로 치환된 알켄일기이며, 아릴기로 치환된 라디칼은 본 명세서에서 설명한 탄소수를 가진다. The prefix "aryl" or "ar" means a radical substituted with an aryl group. For example, an arylalkyl group is an alkyl group substituted with an aryl group, an arylalkenyl group is an alkenyl group substituted with an aryl group, and the radical substituted with an aryl group has the carbon number described herein.
또한 접두사가 연속으로 명명되는 경우 먼저 기재된 순서대로 치환기가 나열되는 것을 의미한다. 예를 들어, 아릴알콕시기의 경우 아릴기로 치환된 알콕시기를 의미하며, 알콕실카르보닐기의 경우 알콕실기로 치환된 카르보닐기를 의미하며, 또한 아릴카르보닐알켄일기의 경우 아릴카르보닐기로 치환된 알켄일기를 의미하며 여기서 아릴카르보닐기는 아릴기로 치환된 카르보닐기이다.Also, when prefixes are named consecutively, it means that the substituents are listed in the order described first. For example, an arylalkoxy group means an alkoxy group substituted with an aryl group, an alkoxylcarbonyl group means a carbonyl group substituted with an alkoxyl group, and an arylcarbonylalkenyl group means an alkenyl group substituted with an arylcarbonyl group. Wherein the arylcarbonyl group is a carbonyl group substituted with an aryl group.
본 명세서에서 사용된 용어 "헤테로알킬"은 다른 설명이 없는 한 하나 이상의 헤테로원자를 포함하는 알킬을 의미한다. 본 발명에 사용된 용어 "헤테로아릴기" 또는 "헤테로아릴렌기"는 다른 설명이 없는 한 각각 하나 이상의 헤테로원자를 포함하는 탄소수 2 내지 60의 아릴기 또는 아릴렌기를 의미하며, 여기에 제한되는 것은 아니며, 단일 고리 및 다중 고리 중 적어도 하나를 포함하며, 이웃한 작용기기가 결합하여 형성될 수도 있다.As used herein, the term “heteroalkyl” means an alkyl including one or more heteroatoms unless otherwise indicated. As used herein, the term "heteroaryl group" or "heteroarylene group" means an aryl group or arylene group having 2 to 60 carbon atoms, each containing one or more heteroatoms, unless otherwise specified. It may include at least one of a single ring and multiple rings, and may be formed by combining adjacent functional groups.
본 발명에 사용된 용어 "헤테로고리기"는 다른 설명이 없는 한 하나 이상의 헤테로원자를 포함하고, 2 내지 60의 탄소수를 가지며, 단일 고리 및 다중 고리 중 적어도 하나를 포함하며, 헤테로지방족 고리 및 헤테로방향족 고리를 포함한다. 이웃한 작용기가 결합하여 형성될 수도 있다.As used herein, the term “heterocyclic group” includes one or more heteroatoms, unless otherwise indicated, and has from 2 to 60 carbon atoms, and includes at least one of single and multiple rings, heteroaliphatic rings and hetero Aromatic rings. Adjacent functional groups may be formed in combination.
본 명세서에서 사용된 용어 "헤테로원자"는 다른 설명이 없는 한 N, O, S, P 또는 Si를 나타낸다.The term "heteroatom" as used herein refers to N, O, S, P or Si unless otherwise stated.
또한 "헤테로고리기"는 고리를 형성하는 탄소 대신 SO2를 포함하는 고리도 포함할 수 있다. 예컨대, "헤테로고리기"는 다음 화합물을 포함한다. "Heterocyclic groups" may also include rings comprising SO 2 instead of carbon forming the ring. For example, a "heterocyclic group" includes the following compounds.
Figure PCTKR2019003116-appb-I000002
Figure PCTKR2019003116-appb-I000002
다른 설명이 없는 한, 본 발명에 사용된 용어 "지방족"은 탄소수 1 내지 60의 지방족 탄화수소를 의미하며, "지방족고리"는 탄소수 3 내지 60의 지방족 탄화수소 고리를 의미한다.Unless otherwise stated, the term "aliphatic" as used herein means an aliphatic hydrocarbon having 1 to 60 carbon atoms, and the "aliphatic ring" means an aliphatic hydrocarbon ring having 3 to 60 carbon atoms.
다른 설명이 없는 한, 본 발명에 사용된 용어 "고리"는 탄소수 3 내지 60의 지방족고리 또는 탄소수 6 내지 60의 방향족고리 또는 탄소수 2 내지 60의 헤테로고리 또는 이들의 조합으로 이루어진 융합 고리를 말하며, 포화 또는 불포화고리를 포함한다.Unless otherwise stated, the term "ring" as used herein refers to a fused ring consisting of an aliphatic ring having 3 to 60 carbon atoms or an aromatic ring having 6 to 60 carbon atoms or a hetero ring having 2 to 60 carbon atoms or a combination thereof. Saturated or unsaturated rings.
전술한 헤테로화합물 이외의 그 밖의 다른 헤테로화합물 또는 헤테로라디칼은 하나 이상의 헤테로원자를 포함하며, 여기에 제한되는 것은 아니다.Other heterocompounds or heteroradicals other than the aforementioned heterocompounds include, but are not limited to, one or more heteroatoms.
다른 설명이 없는 한, 본 발명에 사용된 용어 "카르보닐"이란 -COR'로 표시되는 것이며, 여기서 R'은 수소, 탄소수 1 내지 20 의 알킬기, 탄소수 6 내지 30 의 아릴기, 탄소수 3 내지 30의 사이클로알킬기, 탄소수 2 내지 20의 알켄일기, 탄소수 2 내지 20의 알킨일기, 또는 이들의 조합인 것이다.Unless otherwise stated, the term "carbonyl" used in the present invention is represented by -COR ', wherein R' is hydrogen, an alkyl group having 1 to 20 carbon atoms, an aryl group having 6 to 30 carbon atoms, and 3 to 30 carbon atoms. Cycloalkyl group, an alkenyl group having 2 to 20 carbon atoms, an alkynyl group having 2 to 20 carbon atoms, or a combination thereof.
다른 설명이 없는 한, 본 발명에 사용된 용어 "에테르"란 -R-O-R'로 표시되는 것이며, 여기서 R 또는 R'은 각각 서로 독립적으로 수소, 탄소수 1 내지 20의 알킬기, 탄소수 6 내지 30의 아릴기, 탄소수 3 내지 30의 사이클로알킬기, 탄소수 2 내지 20의 알켄일기, 탄소수 2 내지 20의 알킨일기, 또는 이들의 조합인 것이다.Unless otherwise specified, the term "ether" as used herein is represented by -RO-R ', wherein R or R' are each independently of each other hydrogen, an alkyl group having 1 to 20 carbon atoms, It is an aryl group, a C3-C30 cycloalkyl group, a C2-C20 alkenyl group, a C2-C20 alkynyl group, or a combination thereof.
또한 명시적인 설명이 없는 한, 본 발명에서 사용된 용어 "치환 또는 비치환된"에서 "치환"은 중수소, 할로겐, 아미노기, 니트릴기, 니트로기, C1~C20의 알킬기, C1~C20의 알콕실기, C1~C20의 알킬아민기, C1~C20의 알킬티오펜기, C6~C20의 아릴티오펜기, C2~C20의 알켄일기, C2~C20의 알킨일기, C3~C20의 시클로알킬기, C6~C20의 아릴기, 중수소로 치환된 C6~C20의 아릴기, C8~C20의 아릴알켄일기, 실란기, 붕소기, 게르마늄기, 및 C2~C20의 헤테로고리기로 이루어진 군으로부터 선택되는 1개 이상의 치환기로 치환됨을 의미하며, 이들 치환기에 제한되는 것은 아니다.Also, unless stated otherwise, the term "substituted" in the term "substituted or unsubstituted" as used in the present invention is deuterium, halogen, amino group, nitrile group, nitro group, C 1 ~ C 20 alkyl group, C 1 ~ C 20 alkoxyl group, C 1 ~ C 20 alkylamine group, C 1 ~ C 20 alkylthiophene group, C 6 ~ C 20 arylthiophene group, C 2 ~ C 20 alkenyl group, C 2 ~ C 20 alkynyl, C 3 ~ C 20 cycloalkyl group, C 6 ~ C 20 aryl group, of a C 6 ~ C 20 substituted by deuterium aryl group, a C 8 ~ C 20 aryl alkenyl group, a silane group, a boron Group, germanium group, and C 2 ~ C 20 It is meant to be substituted with one or more substituents selected from the group consisting of, but not limited to these substituents.
또한 명시적인 설명이 없는 한, 본 발명에서 사용되는 화학식은 하기 화학식의 지수 정의에 의한 치환기 정의와 동일하게 적용된다.In addition, unless otherwise specified, the formulas used in the present invention apply in the same manner as the substituent definitions by the exponential definition of the following formula.
Figure PCTKR2019003116-appb-I000003
Figure PCTKR2019003116-appb-I000003
여기서, a가 0의 정수인 경우 치환기 R1은 부존재하는 것을 의미하는데, 즉 a가 0인 경우는 벤젠고리를 형성하는 탄소에 모두 수소가 결합된 것을 의미하며, 이때 탄소에 결합된 수소의 표시를 생략하고 화학식이나 화합물을 기재할 수 있다. a가 1의 정수인 경우 하나의 치환기 R1은 벤젠 고리를 형성하는 탄소 중 어느 하나의 탄소에 결합하며, a가 2 또는 3의 정수인 경우 각각 다음과 같이 결합하며 이때 R1은 서로 동일하거나 다를 수 있으며, a가 4 내지 6의 정수인 경우 이와 유사한 방식으로 벤젠 고리의 탄소에 결합하며, 한편 벤젠 고리를 형성하는 탄소에 결합된 수소의 표시는 생략한다.Herein, when a is an integer of 0, the substituent R 1 is absent, that is, when a is 0, it means that all of the carbons forming the benzene ring are bonded to hydrogen. Omitted formulas and compounds may be omitted. When a is an integer of 1, one substituent R 1 is bonded to any one of carbons forming a benzene ring, and when a is an integer of 2 or 3, each of them is bonded as follows, and R 1 may be the same or different from each other. And when a is an integer of 4 to 6, is bonded to the carbon of the benzene ring in a similar manner, while the indication of hydrogen bonded to the carbon forming the benzene ring is omitted.
Figure PCTKR2019003116-appb-I000004
Figure PCTKR2019003116-appb-I000004
이하, 본 발명의 일 측면에 따른 화합물 및 이를 포함하는 유기전기소자에 대하여 설명한다. Hereinafter, a compound according to an aspect of the present invention and an organic electric element including the same will be described.
본 발명은 제 1전극, 제 2전극 및 상기 제 1전극과 상기 제 2전극 사이에 형성된 유기물층을 포함하는 유기전기소자에 있어서, 상기 유기물층은 발광층을 포함하고, 상기 발광층은 인광성 발광층으로서 하기 화학식 1로 표시되는 제 1호스트 화합물 및 하기 화학식 2로 표시되는 제 2호스트 화합물을 포함하는 것을 특징으로 하는 유기전기소자를 제공한다.The present invention provides an organic electric device comprising a first electrode, a second electrode, and an organic material layer formed between the first electrode and the second electrode, wherein the organic material layer includes a light emitting layer, and the light emitting layer is a phosphorescent light emitting layer. Provided is an organic electric device comprising a first host compound represented by 1 and a second host compound represented by Formula 2 below.
화학식 1 화학식 2          Chemical Formula 1 Chemical Formula 2
Figure PCTKR2019003116-appb-I000005
Figure PCTKR2019003116-appb-I000005
{상기 화학식 1 및 화학식 2에서,{In Formula 1 and Formula 2,
1) Ar1, Ar2, Ar3, Ar4, Ar5, Ar6 및 Ar7은 서로 독립적으로 수소; 중수소; 할로겐; C6-C60의 아릴기; 플루오렌일기; O, N, S, Si, P 중 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; C1-C50의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C1-C30의 알콕실기; C6-C30의 아릴옥시기; 및 -L'-N(Ra)(Rb); 로 이루어진 군에서 선택되고, 또는 Ar1 및 Ar2, 또는 Ar3 및 Ar4는 서로 결합하여 고리를 형성할 수 있고,1) Ar 1 , Ar 2 , Ar 3 , Ar 4 , Ar 5 , Ar 6 and Ar 7 are each independently hydrogen; heavy hydrogen; halogen; C 6 -C 60 aryl group; Fluorenyl groups; C 2 -C 60 heterocyclic group including at least one hetero atom of O, N, S, Si, P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; C 6 -C 30 aryloxy group; And -L'-N (R a ) (R b ); Or Ar 1 and Ar 2 , or Ar 3 and Ar 4 may be bonded to each other to form a ring,
2) 상기 L'은 단일결합; C6-C60의 아릴렌기; 플루오렌일렌기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; 및 C2-C60의 헤테로고리기;로 이루어진 군에서 선택되며, 상기 Ra 및 Rb은 서로 독립적으로 C6-C60의 아릴기; 플루오렌일기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; 및 O, N, S, Si 및 P 중 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기;로 이루어진 군에서 선택되고, 2) L 'is a single bond; C 6 -C 60 arylene group; Fluorenylene groups; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And a C 2 -C 60 heterocyclic group; selected from the group consisting of R a and R b independently of each other an C 6 -C 60 aryl group; Fluorenyl groups; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And a C 2 -C 60 heterocyclic group including at least one heteroatom of O, N, S, Si, and P, and
3) L1, L2, L3, L4 및 L5은 서로 독립적으로 단일결합; C6~C60의 아릴렌기; 플루오렌일렌기; 또는 O, N, S, Si 및 P 중 적어도 하나의 헤테로원자를 포함하는 C2~C60의 헤테로아릴렌기;이고,3) L 1 , L 2 , L 3 , L 4 and L 5 are each independently a single bond; C 6 ~ C 60 arylene group; Fluorenylene groups; Or a C 2 to C 60 heteroarylene group including at least one heteroatom of O, N, S, Si, and P;
4) X1은 O 또는 S이고, 4) X 1 is O or S,
5) 고리 A 및 B는 서로 독립적으로 C6~C20의 아릴기; 또는 C2~C20의 헤테로고리기;이고,5) Rings A and B are each independently of the other C 6 ~ C 20 aryl group; Or a C 2 -C 20 heterocyclic group,
6) X2는 단일결합, N-L6-Ar7, O, S 또는 CR'R"이고, 6) X 2 is a single bond, NL 6 -Ar 7 , O, S or CR'R ",
R' 및 R"는 서로 독립적으로 수소; C6~C60의 아릴기; 플루오렌일기; C3~C60의 헤테로고리기; 또는 C1~C50의 알킬기; 이며, R'과 R"은 서로 결합하여 스파이로 고리를 형성할 수 있고,R 'and R "are each independently hydrogen; C 6 ~ C 60 aryl group; Fluorenyl group; C 3 ~ C 60 Heterocyclic group; or C 1 ~ C 50 Alkyl group; R' and R" Can combine with each other to form a ring as a spy,
7) x는 0~4의 정수이고, y는 0~3의 정수이고, Rc 및 Rd는 서로 독립적으로 수소; C6~C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P 중 적어도 하나의 헤테로원자를 포함하는 C2~C60의 헤테로고리기; C3~C60의 지방족고리와 C6~C60의 방향족고리의 융합고리기; C1~C50의 알킬기; C2~C20의 알켄일기; C2~C20의 알킨일기; C1~C30의 알콕실기; C6~C30의 아릴옥시기; 및 -L'-N(Ra)(Rb); 로 이루어진 군에서 선택되고,7) x is an integer of 0-4, y is an integer of 0-3, R c and R d are each independently hydrogen; C 6 ~ C 60 Aryl group; Fluorenyl group; C 2 ~ C 60 heterocyclic group containing at least one heteroatom of O, N, S, Si and P; Fused ring group of an aromatic ring of C 3 ~ C 60 of aliphatic rings and C 6 ~ C 60; C 1 ~ C 50 Alkyl group; C 2 ~ C 20 Alkenyl group; Alkynyl groups of C 2 to C 20 ; C 1 -C 30 alkoxyl group; C 6 -C 30 aryloxy group; And -L'-N (R a ) (R b ); Is selected from the group consisting of
8) 여기서, 상기 아릴기, 플루오렌닐기, 아릴렌기, 헤테로고리기, 플루오렌일렌기, 융합고리기, 알킬기, 알케닐기, 알콕시기 및 아릴옥시기는 각각 중수소; 할로겐; 실란기; 실록산기; 붕소기; 게르마늄기; 시아노기; 니트로기; C1-C20의 알킬싸이오기; C1-C20의 알콕실기; C1-C20의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C6-C20의 아릴기; 중수소로 치환된 C6-C20의 아릴기; 플루오렌일기; C2-C20의 헤테로고리기; C3-C20의 시클로알킬기; C7-C20의 아릴알킬기 및 C8-C20의 아릴알켄일기;로 이루어진 군에서 선택된 하나 이상의 치환기로 더욱 치환될 수 있으며, 또한 이들 치환기들은 서로 결합하여 고리를 형성할 수도 있으며, 여기서 '고리'란 C3-C60의 지방족고리 또는 C6-C60의 방향족고리 또는 C2-C60의 헤테로고리 또는 이들의 조합으로 이루어진 융합 고리를 말하며, 포화 또는 불포화 고리를 포함한다.}8) wherein the aryl group, fluorenyl group, arylene group, heterocyclic group, fluorenylene group, fused ring group, alkyl group, alkenyl group, alkoxy group and aryloxy group are each deuterium; halogen; Silane group; Siloxane groups; Boron group; Germanium group; Cyano group; Nitro group; Import alkylthio of C 1 -C 20; An alkoxyl group of C 1 -C 20 ; An alkyl group of C 1 -C 20 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; Aryl group of C 6 -C 20 ; C 6 -C 20 aryl group substituted with deuterium; Fluorenyl group; C 2 -C 20 heterocyclic group; A cycloalkyl group of C 3 -C 20 ; C 7 -C 20 arylalkyl group and C 8 -C 20 arylalkenyl group; may be further substituted with one or more substituents selected from the group consisting of, these substituents may be bonded to each other to form a ring, wherein ' Ring 'means a fused ring consisting of an aliphatic ring of C 3 -C 60 or an aromatic ring of C 6 -C 60 or a hetero ring of C 2 -C 60 or a combination thereof, and includes a saturated or unsaturated ring.}
또한, 본 발명은 상기 화학식 1에서 상기 A 및 B가 서로 독립적으로 하기 화학식 a-1 내지 화학식 a-7 중 어느 하나로 표시되는 화합물을 포함하는 유기전기소자를 제공한다. In another aspect, the present invention provides an organic electroluminescent device comprising a compound represented by any one of the formulas A-1 to A-7 independently of each other in A and B in the general formula (1).
화학식a-1 화학식 a-2 화학식 a-3 화학식 a-4Chemical Formula a-1 Chemical Formula a-2 Chemical Formula a-3 Chemical Formula a-4
Figure PCTKR2019003116-appb-I000006
Figure PCTKR2019003116-appb-I000006
화학식 a-5 화학식 a-6 화학식 a-7Chemical Formula a-5 Chemical Formula a-6 Chemical Formula a-7
Figure PCTKR2019003116-appb-I000007
Figure PCTKR2019003116-appb-I000007
{상기 화학식 a-1 내지 화학식 a-7에서,{In Chemical Formula a-1 to Chemical Formula a-7,
Z1 내지 Z48은 서로 독립적으로 CRc 또는 N이고,Z 1 to Z 48 are independently of each other CR c or N,
단, L1 내지 L3에 결합하고 있는 Z1 내지 Z48은 탄소(C)이며,Provided that Z 1 to Z 48 bonded to L 1 to L 3 are carbon (C),
Rc는 상기 Ra의 정의와 동일하고,R c is the same as defined above for R a ,
*는 축합되는 위치를 나타낸다.}* Indicates the location of condensation}
또한, 본 발명은 상기 화학식 1 또는 화학식 2에서 상기 L1 내지 L5가 하기 화학식 b-1 내지 b-13 중에 어느 하나로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.In another aspect, the present invention provides an organic electroluminescent device comprising a compound represented by any one of L 1 to L 5 in the formula (1) or formula (2).
화학식 b-1 화학식 b-2 화학식 b-3 화학식 b-4 화학식 b-5 화학식 b-6Chemical Formula b-1 Chemical Formula b-2 Chemical Formula b-3 Chemical Formula b-4 Chemical Formula b-5 Chemical Formula b-6
Figure PCTKR2019003116-appb-I000008
Figure PCTKR2019003116-appb-I000008
화학식 b-7 화학식 b-8 화학식 b-9 화학식 b-10Chemical Formula b-7 Chemical Formula b-8 Chemical Formula b-9 Chemical Formula b-10
Figure PCTKR2019003116-appb-I000009
Figure PCTKR2019003116-appb-I000009
화학식 b-11 화학식 b-12 화학식 b-13  Chemical Formula b-11 Chemical Formula b-12 Chemical Formula b-13
Figure PCTKR2019003116-appb-I000010
Figure PCTKR2019003116-appb-I000010
{상기 화학식 b-1 내지 화학식 b-13에서,{In Chemical Formula b-1 to Chemical Formula b-13,
Y는 N-L5-Ar7, O, S 또는 CRdRe이고,Y is NL 5 -Ar 7 , O, S or CR d R e ,
L5은 상기 L3의 정의와 동일하고,L 5 is the same as defined above in L 3 ,
Ar7은 상기 Ar5의 정의와 동일하고,Ar 7 is the same as defined in Ar 5 ,
Rd 및 Re는 상기 Ra의 정의와 동일하며, R d and R e are the same as defined above for R a ,
a, c, d 및 e은 서로 독립적으로 0 내지 4의 정수이고, b는 0 내지 6의 정수이고,a, c, d and e are each independently an integer from 0 to 4, b is an integer from 0 to 6,
f 및 g은 서로 독립적으로 0 내지 3의 정수이고, h는 0 내지 2의 정수이며, i는 0 또는 1의 정수이고,f and g are each independently an integer of 0 to 3, h is an integer of 0 to 2, i is an integer of 0 or 1,
R1, R2 및 R3은 서로 독립적으로 수소; 중수소; 삼중수소; 할로겐; 시아노기; 나이트로기; C6-C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P로 이루어진 군에서 선택된 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; C1-C50의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C1-C30의 알콕실기; C6-C30의 아릴옥시기; 및 -La-N(Rf)(Rg);로 이루어진 군에서 선택되고, 또는 상기 a, b, c, d, e, f 및 g가 2 이상인 경우, 및 h가 2 이상인 경우는 각각 복수로서 서로 동일하거나 상이하며 복수의 R1끼리 혹은 복수의 R2끼리 혹은 복수의 R3끼리 혹은 이웃한 R1과 R2 또는 R2과 R3은 서로 결합하여 방향족 고리 또는 헤테로방향족 고리를 형성할 수 있고,R 1 , R 2 and R 3 are independently of each other hydrogen; heavy hydrogen; Tritium; halogen; Cyano group; Nitro group; C 6 -C 60 aryl group; Fluorenyl group; C 2 -C 60 heterocyclic group including at least one heteroatom selected from the group consisting of O, N, S, Si and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; C 6 -C 30 aryloxy group; And -L a -N (R f ) (R g ); or when a, b, c, d, e, f and g are 2 or more, and h is 2 or more, respectively A plurality of R1's are the same as or different from each other, and a plurality of R 1 's or a plurality of R 2' s or a plurality of R 3 's or neighboring R 1 and R 2 or R 2 and R 3 combine with each other to form an aromatic ring or a heteroaromatic ring Can do it,
여기서 상기 La는 단일결합; C6-C60의 아릴렌기; 플루오렌일렌기; O, N, S, Si 및 P 중 적어도 하나의 헤테로 원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족 고리의 융합고리기; 및 C3-C60의 지방족 탄화수소기;로 이루어진 군에서 선택되며, 상기 Rf 및 Rg는 서로 독립적으로 C6-C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P로 이루어진 군에서 선택된 적어도 하나의 헤테로 원자를 포함하는 C2-C60의 헤테로고리기; 및 C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기;로 이루어진 군에서 선택되고,Wherein L a is a single bond; C 6 -C 60 arylene group; Fluorenylene groups; A C 2 -C 60 heterocyclic group comprising at least one hetero atom of O, N, S, Si, and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And an aliphatic hydrocarbon group of C 3 -C 60 ; wherein R f and R g are independently of each other an aryl group of C 6 -C 60 ; Fluorenyl groups; C 2 -C 60 heterocyclic group including at least one hetero atom selected from the group consisting of O, N, S, Si and P; And a fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 .
Z49, Z50 및 Z51은 서로 독립적으로 CRh 또는 N이고, Z49, Z50 및 Z51 중 적어도 하나는 N이며,Z 49 , Z 50 and Z 51 are independently of each other CR h or N, and at least one of Z 49 , Z 50 and Z 51 is N,
Rh은 수소; 중수소; 삼중수소; 할로겐; 시아노기; 나이트로기; C6-C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P로 이루어진 군에서 선택된 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; C1-C50의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C1-C30의 알콕실기; 및 C6-C30의 아릴옥시기;로 이루어진 군에서 선택되고, 이웃한 R1과 Rh는 서로 결합하여 방향족 고리 또는 헤테로방향족 고리를 형성할 수 있다.}R h is hydrogen; heavy hydrogen; Tritium; halogen; Cyano group; Nitro group; C 6 -C 60 aryl group; Fluorenyl groups; C 2 -C 60 heterocyclic group including at least one heteroatom selected from the group consisting of O, N, S, Si and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; And an C 6 -C 30 aryloxy group; adjacent R 1 and R h may be bonded to each other to form an aromatic ring or a heteroaromatic ring.}
또한, 본 발명은 상기 화학식 1로 나타내는 제 1호스트 화합물이 하기 화학식 3 내지 화학식 5 중 어느 하나로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.In another aspect, the present invention provides an organic electroluminescent device comprising a compound represented by any one of the following formula (3) to the first host compound represented by the formula (1).
화학식 3Formula 3
Figure PCTKR2019003116-appb-I000011
Figure PCTKR2019003116-appb-I000011
화학식 4Formula 4
Figure PCTKR2019003116-appb-I000012
Figure PCTKR2019003116-appb-I000012
화학식 5Formula 5
Figure PCTKR2019003116-appb-I000013
Figure PCTKR2019003116-appb-I000013
{상기 화학식 3 내지 화학식 5에서,{In Formula 3 to Formula 5,
X1, A, B, L1, L2, Ar2, Ar3 및 Ar4는 상기에서 정의된 바와 같고,X 1 , A, B, L 1 , L 2 , Ar 2 , Ar 3 and Ar 4 are as defined above,
C 및 D는 상기 A의 정의와 동일하고,C and D are the same as the definition of A above,
W는 N-L7-Ar8, O, S, 또는 CRiRj이고,W is NL 7 -Ar 8 , O, S, or CR i R j ,
L6 및 L7은 상기 L4의 정의와 동일하고,L 6 and L 7 are the same as the definition of L 4 ,
Ar8은 상기 Ar5의 정의와 동일하고,Ar 8 is the same as defined in Ar 5 ,
Ri 및 Rj는 상기 Ra의 정의와 동일하며,R i and R j are the same as the definition of R a ,
2개의 Ar8은 각각 동일하거나 상이하고, 2개의 W는 각각 동일하거나 상이하고, 2개의 C는 각각 동일하거나 상이하고, 2개의 D는 각각 동일하거나 상이하다.}Two Ar 8 are each the same or different, two W are each the same or different, two C are the same or different, and two D are the same or different.
또 다른 구체적인 예로, 본 발명은 상기 화학식 1로 나타내는 제 1호스트 화합물이 하기 화학식 6으로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.As another specific example, the present invention provides an organic electroluminescent device comprising a compound represented by Chemical Formula 1, wherein the first host compound is represented by Chemical Formula 1.
화학식 6Formula 6
Figure PCTKR2019003116-appb-I000014
Figure PCTKR2019003116-appb-I000014
{상기 화학식 6에서, {In Chemical Formula 6,
X1, Ar2, Ar3 및 Ar4는 상기에서 정의된 바와 같고,X 1 , Ar 2 , Ar 3 and Ar 4 are as defined above,
Z1, Z2, Z3 및 Z4는 서로 독립적으로 CRc 또는 N이고,Z 1 , Z 2 , Z 3 and Z 4 are independently of each other CR c or N,
단, N에 결합하고 있는 Z1 내지 Z4는 탄소(C)이며,However, Z 1 to Z 4 bonded to N are carbon (C),
Rc는 상기 Ra의 정의와 동일하고,R c is the same as defined above for R a ,
W는 N-L7-Ar8, O, S, 또는 CRiRj이고,W is NL 7 -Ar 8 , O, S, or CR i R j ,
L7은 상기 L4의 정의와 동일하고,L 7 is the same as defined above in L 4 ,
Ar8은 상기 Ar5의 정의와 동일하고,Ar 8 is the same as defined in Ar 5 ,
Ri 및 Rj는 상기 Ra의 정의와 동일하다.}R i and R j is as defined above R a.}
본 발명에서, 또 다른 일예로, 상기 화학식 1로 나타내는 제 1호스트 화합물이 하기 화학식 7, 화학식 8 또는 화학식 9로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.In another embodiment, the first host compound represented by Chemical Formula 1 provides an organic electric device including the compound represented by Chemical Formula 7, Chemical Formula 8, or Chemical Formula 9 below.
화학식 7Formula 7
Figure PCTKR2019003116-appb-I000015
Figure PCTKR2019003116-appb-I000015
화학식 8Formula 8
Figure PCTKR2019003116-appb-I000016
Figure PCTKR2019003116-appb-I000016
화학식 9Formula 9
Figure PCTKR2019003116-appb-I000017
Figure PCTKR2019003116-appb-I000017
{상기 화학식 7 내지 화학식 9에서, {In Formula 7 to Formula 9,
X1, Ar2, Ar3 및 Ar4, Z1, Z2, Z3, Z4, 및 W는 상기에서 정의된 바와 같다.}X 1 , Ar 2 , Ar 3 and Ar 4 , Z 1 , Z 2 , Z 3 , Z 4 , and W are as defined above.}
또다른 일 양태로 본 발명은, 상기 화학식 2로 나타내는 제 2 호스트 화합물이 하기 화학식 10 내지 화학식 13 중 어느 하나로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.In still another aspect, the present invention provides an organic electroluminescent device including a compound represented by any one of the following Chemical Formulas 10 to 13, wherein the second host compound represented by Chemical Formula 2 is present.
화학식 10 화학식 11    Formula 10 Formula 11
Figure PCTKR2019003116-appb-I000018
Figure PCTKR2019003116-appb-I000018
화학식 12 화학식 13    Chemical Formula 12 Chemical Formula 13
Figure PCTKR2019003116-appb-I000019
Figure PCTKR2019003116-appb-I000019
{상기 화학식 10 내지 화학식 13에서, {In Formula 10 to Formula 13,
X2, L3, L4, L5, Ar5, Ar6, Rc, Rd, x, y은 상기에서 정의된 바와 같다.}X 2 , L 3 , L 4 , L 5 , Ar 5 , Ar 6 , R c , R d , x, y are as defined above.}
또한 본 발명은 상기 화학식 2로 나타내는 제 2호스트 화합물이 하기 화학식 14로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.In another aspect, the present invention provides an organic electroluminescent device comprising a compound represented by the following formula 14 is the second host compound represented by the formula (2).
화학식 14Formula 14
Figure PCTKR2019003116-appb-I000020
Figure PCTKR2019003116-appb-I000020
{상기 화학식 14에서,{In Formula 14,
1) X2, L3, L4, L5, Ar5, Rc, Rd, x, y는 상기에서 정의된 바와 같고,1) X 2 , L 3 , L 4 , L 5 , Ar 5 , R c , R d , x, y are as defined above,
2) X3는 상기 X2의 정의와 동일하고,2) X 3 is the same as the definition of X 2 above,
3) Re 및 Rf는 상기 Rd 및 Rc의 정의와 동일하며,3) R e and R f are the same as the definitions of R d and R c ,
4) n은 y와 m은 x의 정의와 동일하다.}4) n is the same as y and m is the definition of x}
또한 본 발명은 상기 화학식 2로 나타내는 제 2호스트 화합물이 하기 화학식 15 내지 화학식 18로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.In another aspect, the present invention provides an organic electroluminescent device comprising a compound represented by the formula (15) to the second host compound represented by the formula (2).
화학식 15 화학식 16 Formula 15 Formula 16
Figure PCTKR2019003116-appb-I000021
Figure PCTKR2019003116-appb-I000021
화학식 17 화학식 18Formula 17 Formula 18
Figure PCTKR2019003116-appb-I000022
Figure PCTKR2019003116-appb-I000022
{상기 화학식 15 내지 화학식 18에서,{In Formula 15 to Formula 18,
X2, L3, L4, L5, Ar5, Rc, Rd, x, y, X3, Re, Rf, m, n은 상기에서 정의된 바와 같다}X 2 , L 3 , L 4 , L 5 , Ar 5 , R c , R d , x, y, X 3 , R e , R f , m, n are as defined above}
또한 본 발명은 상기 화학식 2로 표시되는 화합물은 하기 화학식 19로 나타내는 화합물을 포함하며, 이를 제공한다.In another aspect, the present invention includes a compound represented by the formula (2), and provides a compound represented by the formula (19).
화학식 19Formula 19
Figure PCTKR2019003116-appb-I000023
Figure PCTKR2019003116-appb-I000023
{상기 화학식 19에서,{In Formula 19,
A는 하기 화학식 A-1 또는 화학식 A-2이고,A is the following formula A-1 or formula A-2,
<화학식 A-1> <화학식 A-2><Formula A-1> <Formula A-2>
Figure PCTKR2019003116-appb-I000024
Figure PCTKR2019003116-appb-I000025
이고,
Figure PCTKR2019003116-appb-I000024
Figure PCTKR2019003116-appb-I000025
ego,
X11 및 X12는 각각 독립적으로 O 또는 S이고,X 11 and X 12 are each independently O or S,
a', b', c' 및 d'은 각각 독립적으로 0 또는 1이며,a ', b', c 'and d' are each independently 0 or 1,
Ar11, Ar12, Ar13 및 Ar14는 각각 독리적으로 C6-C18의 아릴기이다.}Ar 11 , Ar 12 , Ar 13 and Ar 14 are each independently a C 6 -C 18 aryl group.}
상기 화학식 19로 나타내는 화합물은 하기 화학식 20 또는 화학식 21로 표시되는 화합물을 포함한다.The compound represented by Chemical Formula 19 includes a compound represented by the following Chemical Formula 20 or Chemical Formula 21.
<화학식 20> <화학식 21><Formula 20> <Formula 21>
Figure PCTKR2019003116-appb-I000026
Figure PCTKR2019003116-appb-I000026
{상기 화학식 20 및 21에서, X11, X12, a', b', c' 및 d'는 상기에서 정의한 바와 동일하다.}{In Formulas 20 and 21, X 11 , X 12 , a ', b', c 'and d' are the same as defined above.}
또 다른 예로, 본 발명은 상기 화학식 2로 표시되는 화합물인 하기 화학식 22로 표시되는 화합물을 포함하며, 이러한 화합물을 제공한다.As another example, the present invention includes a compound represented by the following Chemical Formula 22, which is a compound represented by Chemical Formula 2, and provides such a compound.
이러한 화합물은 Bis-carbazole, 3차 아민, 다환 헤테로고리 화합물과 같은 제 2호스트와 혼합되어 발광층에 사용될 수도 있다.Such a compound may be mixed with a second host such as Bis-carbazole, tertiary amine, polycyclic heterocyclic compound, and used in the light emitting layer.
<화학식 22><Formula 22>
Figure PCTKR2019003116-appb-I000027
Figure PCTKR2019003116-appb-I000027
{상기 화학식 22에서, A는 하기 화학식 A-1 또는 화학식 A-2이고,{In Chemical Formula 22, A is the following Formula A-1 or A-2,
<화학식 A-1> <화학식 A-2><Formula A-1> <Formula A-2>
Figure PCTKR2019003116-appb-I000028
Figure PCTKR2019003116-appb-I000029
이고
Figure PCTKR2019003116-appb-I000028
Figure PCTKR2019003116-appb-I000029
ego
Ar11은 C6-C18의 아릴기이고,Ar 11 is an aryl group of C 6 -C 18 ,
X11, X12 및 X13은 각각 독립적으로 O 또는 S이고,X 11 , X 12 and X 13 are each independently O or S,
m' 및 n'은 각각 독립적으로 0 또는 1이고, m 'and n' are each independently 0 or 1,
a' 및 c'는 각각 독립적으로 0 내지 5 중 어느 하나의 정수이며,a 'and c' are each independently an integer of 0 to 5,
d'은 0 내지 4 중 어느 하나의 정수를 나타내고,d 'represents the integer of any one of 0-4,
R21은 C6-C18의 아릴기이고,R 21 is an aryl group of C 6 -C 18 ,
Ar13 및 Ar14는 각각 독립적으로 C6-C18의 아릴기이다.}Ar 13 and Ar 14 are each independently a C 6 -C 18 aryl group.}
또한, 본 발명에서 상기 화학식 22로 나타내는 화합물은 하기 화학식 23 또는 화학식 24로 표시될 수 있고, 본 발명은 이러한 화합물을 제공한다.In addition, in the present invention, the compound represented by Chemical Formula 22 may be represented by the following Chemical Formula 23 or Chemical Formula 24, and the present invention provides such a compound.
화학식 23 화학식 24Chemical Formula 23 Chemical Formula 24
Figure PCTKR2019003116-appb-I000030
Figure PCTKR2019003116-appb-I000030
{상기 화학식 23 및 24에서, X11, X12, X13, a', c', d', m', n', Ar13, Ar14, R21는 상기에서 정의한 바와 동일하다.}{In Formulas 23 and 24, X 11 , X 12 , X 13 , a ', c', d ', m', n ', Ar 13 , Ar 14 , R 21 are the same as defined above.}
상기 화학식 2에 포함되는 화합물은 Bis-carbazole, 3차 아민, 다환 헤테로고리 화합물과 같은 제 2호스트와 혼합되어 발광층에 사용될 수 있으며, 보다 구체적으로 화학식 19 또는 화학식 22에 포함되는 화합물을 사용할 수 있다.The compound included in Formula 2 may be used in the light emitting layer by mixing with a second host such as Bis-carbazole, tertiary amine, polycyclic heterocyclic compound, and more specifically, the compound included in Formula 19 or Formula 22 may be used. .
일 예로, 본 발명은 상기 화학식 1로 나타내는 제 1 호스트 화합물이 하기 화합물 1-1 내지 화합물 1-175를 포함한다.In one embodiment, the first host compound represented by Formula 1 includes the following compound 1-1 to compound 1-175.
Figure PCTKR2019003116-appb-I000031
Figure PCTKR2019003116-appb-I000031
Figure PCTKR2019003116-appb-I000032
Figure PCTKR2019003116-appb-I000032
Figure PCTKR2019003116-appb-I000033
Figure PCTKR2019003116-appb-I000033
Figure PCTKR2019003116-appb-I000034
Figure PCTKR2019003116-appb-I000034
Figure PCTKR2019003116-appb-I000035
Figure PCTKR2019003116-appb-I000035
Figure PCTKR2019003116-appb-I000036
Figure PCTKR2019003116-appb-I000036
Figure PCTKR2019003116-appb-I000037
Figure PCTKR2019003116-appb-I000037
Figure PCTKR2019003116-appb-I000038
Figure PCTKR2019003116-appb-I000038
Figure PCTKR2019003116-appb-I000039
Figure PCTKR2019003116-appb-I000039
Figure PCTKR2019003116-appb-I000040
Figure PCTKR2019003116-appb-I000040
Figure PCTKR2019003116-appb-I000041
Figure PCTKR2019003116-appb-I000041
Figure PCTKR2019003116-appb-I000042
Figure PCTKR2019003116-appb-I000042
Figure PCTKR2019003116-appb-I000043
Figure PCTKR2019003116-appb-I000043
Figure PCTKR2019003116-appb-I000044
Figure PCTKR2019003116-appb-I000044
Figure PCTKR2019003116-appb-I000045
Figure PCTKR2019003116-appb-I000045
Figure PCTKR2019003116-appb-I000046
Figure PCTKR2019003116-appb-I000046
Figure PCTKR2019003116-appb-I000047
Figure PCTKR2019003116-appb-I000047
Figure PCTKR2019003116-appb-I000048
Figure PCTKR2019003116-appb-I000048
Figure PCTKR2019003116-appb-I000049
Figure PCTKR2019003116-appb-I000049
Figure PCTKR2019003116-appb-I000050
Figure PCTKR2019003116-appb-I000050
Figure PCTKR2019003116-appb-I000051
Figure PCTKR2019003116-appb-I000051
Figure PCTKR2019003116-appb-I000052
Figure PCTKR2019003116-appb-I000052
Figure PCTKR2019003116-appb-I000053
Figure PCTKR2019003116-appb-I000053
Figure PCTKR2019003116-appb-I000054
Figure PCTKR2019003116-appb-I000054
Figure PCTKR2019003116-appb-I000055
Figure PCTKR2019003116-appb-I000055
Figure PCTKR2019003116-appb-I000056
Figure PCTKR2019003116-appb-I000056
Figure PCTKR2019003116-appb-I000057
Figure PCTKR2019003116-appb-I000057
Figure PCTKR2019003116-appb-I000058
Figure PCTKR2019003116-appb-I000058
Figure PCTKR2019003116-appb-I000059
Figure PCTKR2019003116-appb-I000059
Figure PCTKR2019003116-appb-I000060
Figure PCTKR2019003116-appb-I000060
Figure PCTKR2019003116-appb-I000061
Figure PCTKR2019003116-appb-I000061
Figure PCTKR2019003116-appb-I000062
Figure PCTKR2019003116-appb-I000062
Figure PCTKR2019003116-appb-I000063
Figure PCTKR2019003116-appb-I000063
Figure PCTKR2019003116-appb-I000064
Figure PCTKR2019003116-appb-I000064
Figure PCTKR2019003116-appb-I000065
Figure PCTKR2019003116-appb-I000065
또 다른 예로, 본 발명에서 상기 화학식 2로 나타내는 제 2호스트 화합물은 하기 화합물을 포함한다. 즉, 화합물 1'-1 내지 1'-84, 2-1 내지 2-60, 3-1 내지 3-36, P-1 내지 P-120, 4-1 내지 4-12, 5-1 내지 5-20, 6-1 내지 6-16 및 7-1 내지 7-24를 포함한다.As another example, the second host compound represented by Chemical Formula 2 in the present invention includes the following compound. That is, compound 1'-1 to 1'-84, 2-1 to 2-60, 3-1 to 3-36, P-1 to P-120, 4-1 to 4-12, 5-1 to 5 -20, 6-1 to 6-16 and 7-1 to 7-24.
Figure PCTKR2019003116-appb-I000066
Figure PCTKR2019003116-appb-I000066
Figure PCTKR2019003116-appb-I000067
Figure PCTKR2019003116-appb-I000067
Figure PCTKR2019003116-appb-I000068
Figure PCTKR2019003116-appb-I000068
Figure PCTKR2019003116-appb-I000069
Figure PCTKR2019003116-appb-I000069
Figure PCTKR2019003116-appb-I000070
Figure PCTKR2019003116-appb-I000070
Figure PCTKR2019003116-appb-I000071
Figure PCTKR2019003116-appb-I000071
Figure PCTKR2019003116-appb-I000072
Figure PCTKR2019003116-appb-I000072
Figure PCTKR2019003116-appb-I000073
Figure PCTKR2019003116-appb-I000073
Figure PCTKR2019003116-appb-I000074
Figure PCTKR2019003116-appb-I000074
Figure PCTKR2019003116-appb-I000075
Figure PCTKR2019003116-appb-I000075
Figure PCTKR2019003116-appb-I000076
Figure PCTKR2019003116-appb-I000076
Figure PCTKR2019003116-appb-I000077
Figure PCTKR2019003116-appb-I000077
Figure PCTKR2019003116-appb-I000078
Figure PCTKR2019003116-appb-I000078
Figure PCTKR2019003116-appb-I000079
Figure PCTKR2019003116-appb-I000079
Figure PCTKR2019003116-appb-I000080
Figure PCTKR2019003116-appb-I000080
Figure PCTKR2019003116-appb-I000081
Figure PCTKR2019003116-appb-I000081
Figure PCTKR2019003116-appb-I000082
Figure PCTKR2019003116-appb-I000082
Figure PCTKR2019003116-appb-I000083
Figure PCTKR2019003116-appb-I000083
Figure PCTKR2019003116-appb-I000084
Figure PCTKR2019003116-appb-I000084
Figure PCTKR2019003116-appb-I000085
Figure PCTKR2019003116-appb-I000085
Figure PCTKR2019003116-appb-I000086
Figure PCTKR2019003116-appb-I000086
Figure PCTKR2019003116-appb-I000087
Figure PCTKR2019003116-appb-I000087
Figure PCTKR2019003116-appb-I000088
Figure PCTKR2019003116-appb-I000088
Figure PCTKR2019003116-appb-I000089
Figure PCTKR2019003116-appb-I000089
Figure PCTKR2019003116-appb-I000090
Figure PCTKR2019003116-appb-I000090
Figure PCTKR2019003116-appb-I000091
Figure PCTKR2019003116-appb-I000091
Figure PCTKR2019003116-appb-I000092
Figure PCTKR2019003116-appb-I000092
Figure PCTKR2019003116-appb-I000093
Figure PCTKR2019003116-appb-I000093
Figure PCTKR2019003116-appb-I000094
Figure PCTKR2019003116-appb-I000094
Figure PCTKR2019003116-appb-I000095
Figure PCTKR2019003116-appb-I000095
Figure PCTKR2019003116-appb-I000096
Figure PCTKR2019003116-appb-I000096
Figure PCTKR2019003116-appb-I000097
Figure PCTKR2019003116-appb-I000097
Figure PCTKR2019003116-appb-I000098
Figure PCTKR2019003116-appb-I000098
Figure PCTKR2019003116-appb-I000099
Figure PCTKR2019003116-appb-I000099
Figure PCTKR2019003116-appb-I000100
Figure PCTKR2019003116-appb-I000100
Figure PCTKR2019003116-appb-I000101
Figure PCTKR2019003116-appb-I000101
Figure PCTKR2019003116-appb-I000102
Figure PCTKR2019003116-appb-I000102
Figure PCTKR2019003116-appb-I000103
Figure PCTKR2019003116-appb-I000103
Figure PCTKR2019003116-appb-I000104
Figure PCTKR2019003116-appb-I000104
Figure PCTKR2019003116-appb-I000105
Figure PCTKR2019003116-appb-I000105
Figure PCTKR2019003116-appb-I000106
Figure PCTKR2019003116-appb-I000106
Figure PCTKR2019003116-appb-I000107
Figure PCTKR2019003116-appb-I000107
Figure PCTKR2019003116-appb-I000108
Figure PCTKR2019003116-appb-I000108
Figure PCTKR2019003116-appb-I000109
Figure PCTKR2019003116-appb-I000109
Figure PCTKR2019003116-appb-I000110
Figure PCTKR2019003116-appb-I000110
Figure PCTKR2019003116-appb-I000111
Figure PCTKR2019003116-appb-I000111
Figure PCTKR2019003116-appb-I000112
Figure PCTKR2019003116-appb-I000112
Figure PCTKR2019003116-appb-I000113
Figure PCTKR2019003116-appb-I000113
Figure PCTKR2019003116-appb-I000114
Figure PCTKR2019003116-appb-I000114
Figure PCTKR2019003116-appb-I000115
Figure PCTKR2019003116-appb-I000115
Figure PCTKR2019003116-appb-I000116
Figure PCTKR2019003116-appb-I000116
Figure PCTKR2019003116-appb-I000117
Figure PCTKR2019003116-appb-I000117
Figure PCTKR2019003116-appb-I000118
Figure PCTKR2019003116-appb-I000118
Figure PCTKR2019003116-appb-I000119
Figure PCTKR2019003116-appb-I000119
Figure PCTKR2019003116-appb-I000120
Figure PCTKR2019003116-appb-I000120
Figure PCTKR2019003116-appb-I000121
Figure PCTKR2019003116-appb-I000121
Figure PCTKR2019003116-appb-I000122
Figure PCTKR2019003116-appb-I000122
Figure PCTKR2019003116-appb-I000123
Figure PCTKR2019003116-appb-I000123
Figure PCTKR2019003116-appb-I000124
Figure PCTKR2019003116-appb-I000124
Figure PCTKR2019003116-appb-I000125
Figure PCTKR2019003116-appb-I000125
Figure PCTKR2019003116-appb-I000126
Figure PCTKR2019003116-appb-I000126
Figure PCTKR2019003116-appb-I000127
Figure PCTKR2019003116-appb-I000127
Figure PCTKR2019003116-appb-I000128
Figure PCTKR2019003116-appb-I000128
Figure PCTKR2019003116-appb-I000129
Figure PCTKR2019003116-appb-I000129
Figure PCTKR2019003116-appb-I000130
Figure PCTKR2019003116-appb-I000130
Figure PCTKR2019003116-appb-I000131
Figure PCTKR2019003116-appb-I000131
Figure PCTKR2019003116-appb-I000132
Figure PCTKR2019003116-appb-I000132
Figure PCTKR2019003116-appb-I000133
Figure PCTKR2019003116-appb-I000133
Figure PCTKR2019003116-appb-I000134
Figure PCTKR2019003116-appb-I000134
Figure PCTKR2019003116-appb-I000135
Figure PCTKR2019003116-appb-I000135
Figure PCTKR2019003116-appb-I000136
Figure PCTKR2019003116-appb-I000136
Figure PCTKR2019003116-appb-I000137
Figure PCTKR2019003116-appb-I000137
Figure PCTKR2019003116-appb-I000138
Figure PCTKR2019003116-appb-I000138
Figure PCTKR2019003116-appb-I000139
Figure PCTKR2019003116-appb-I000139
Figure PCTKR2019003116-appb-I000140
Figure PCTKR2019003116-appb-I000140
Figure PCTKR2019003116-appb-I000141
Figure PCTKR2019003116-appb-I000141
Figure PCTKR2019003116-appb-I000142
Figure PCTKR2019003116-appb-I000142
Figure PCTKR2019003116-appb-I000143
Figure PCTKR2019003116-appb-I000143
Figure PCTKR2019003116-appb-I000144
Figure PCTKR2019003116-appb-I000144
Figure PCTKR2019003116-appb-I000145
Figure PCTKR2019003116-appb-I000145
Figure PCTKR2019003116-appb-I000146
Figure PCTKR2019003116-appb-I000146
Figure PCTKR2019003116-appb-I000147
Figure PCTKR2019003116-appb-I000147
Figure PCTKR2019003116-appb-I000148
Figure PCTKR2019003116-appb-I000148
Figure PCTKR2019003116-appb-I000149
Figure PCTKR2019003116-appb-I000149
Figure PCTKR2019003116-appb-I000150
Figure PCTKR2019003116-appb-I000150
Figure PCTKR2019003116-appb-I000151
Figure PCTKR2019003116-appb-I000151
Figure PCTKR2019003116-appb-I000152
Figure PCTKR2019003116-appb-I000152
Figure PCTKR2019003116-appb-I000153
Figure PCTKR2019003116-appb-I000153
Figure PCTKR2019003116-appb-I000154
Figure PCTKR2019003116-appb-I000154
Figure PCTKR2019003116-appb-I000155
Figure PCTKR2019003116-appb-I000155
Figure PCTKR2019003116-appb-I000156
Figure PCTKR2019003116-appb-I000156
Figure PCTKR2019003116-appb-I000157
Figure PCTKR2019003116-appb-I000157
Figure PCTKR2019003116-appb-I000158
Figure PCTKR2019003116-appb-I000158
도 1을 참조하여 설명하면, 본 발명에 따른 유기전기소자(100)는 기판(110) 상에 형성된 제 1전극(120), 제 2전극(180) 및 제 1전극(120)과 제 2전극(180) 사이에 화학식 1로 표시되는 화합물을 포함하는 유기물층을 구비한다. 이때, 제 1전극(120)은 애노드(양극)이고, 제 2전극(180)은 캐소드(음극)일 수 있으며, 인버트형의 경우에는 제 1전극이 캐소드이고 제 2전극이 애노드일 수 있다.Referring to FIG. 1, the organic electric device 100 according to the present invention includes a first electrode 120, a second electrode 180, and a first electrode 120 and a second electrode formed on a substrate 110. An organic material layer including a compound represented by Chemical Formula 1 is provided between 180. In this case, the first electrode 120 may be an anode (anode), the second electrode 180 may be a cathode (cathode), and in the case of an inverted type, the first electrode may be a cathode and the second electrode may be an anode.
유기물층은 제 1전극(120) 상에 순차적으로 정공주입층(130), 정공수송층(140), 발광층(150), 발광보조층(151), 전자수송층(160) 및 전자주입층(170)을 포함할 수 있다. 이때, 발광층(150)을 제외한 나머지 층들이 형성되지 않을 수 있다. 정공저지층, 전자저지층, 발광보조층(151), 전자수송보조층, 버퍼층(141) 등을 더 포함할 수 있고, 전자수송층(160) 등이 정공저지층의 역할을 할 수도 있다.The organic material layer may sequentially include the hole injection layer 130, the hole transport layer 140, the light emitting layer 150, the light emitting auxiliary layer 151, the electron transport layer 160, and the electron injection layer 170 on the first electrode 120. It may include. At this time, the remaining layers except for the light emitting layer 150 may not be formed. The hole blocking layer, the electron blocking layer, the light emitting auxiliary layer 151, the electron transport auxiliary layer, the buffer layer 141 may be further included, and the electron transport layer 160 may serve as the hole blocking layer.
또한, 미도시하였지만 본 발명에 따른 유기전기소자는 제 1전극과 제 2전극중 적어도 일면 중 상기 유기물층과 반대되는 일면에 형성된 보호층을 더 포함할 수 있다.In addition, although not shown, the organic electronic device according to the present invention may further include a protective layer formed on one surface of the first electrode and the second electrode opposite to the organic material layer.
한편, 동일한 코어일지라도 어느 위치에 어느 치환기를 결합시키냐에 따라 밴드갭(band gap), 전기적 특성, 계면 특성 등이 달라질 수 있으므로, 코어의 선택 및 이에 결합된 서브(sub)-치환체의 조합도 아주 중요하며, 특히 각 유기물층 간의 에너지 level 및 T1 값, 물질의 고유특성(mobility, 계면특성 등) 등이 최적의 조합을 이루었을 때 긴 수명과 높은 효율을 동시에 달성할 수 있다.Meanwhile, even in the same core, band gaps, electrical characteristics, and interface characteristics may vary depending on which substituents are bonded at which positions. Therefore, the selection of cores and the combination of sub-substituents bound thereto are also very significant. Importantly, long life and high efficiency can be achieved at the same time when an optimal combination of energy level and T1 value and intrinsic properties (mobility, interfacial properties, etc.) of each organic material layer is achieved.
본 발명의 일 실시예에 따른 유기전기발광소자는 PVD(physical vapor deposition) 방법을 이용하여 제조될 수 있다. 예컨대, 기판 상에 금속 또는 전도성을 가지는 금속 산화물 또는 이들의 합금을 증착시켜 양극을 형성하고, 그 위에 정공주입층(130), 정공수송층(140), 발광층(150), 전자수송층(160) 및 전자주입층(170)을 포함하는 유기물층을 형성한 후, 그 위에 음극으로 사용할 수 있는 물질을 증착시킴으로써 제조될 수 있다. 또한, 정공수송층(140)과 발광층(150) 사이에 발광보조층(151)을, 발광층(150)과 전자수송층(160) 사이에 전자수송보조층을 추가로 더 형성할 수 있다. The organic electroluminescent device according to an embodiment of the present invention may be manufactured using a PVD method. For example, a metal or conductive metal oxide or an alloy thereof is deposited on a substrate to form an anode, and the hole injection layer 130, the hole transport layer 140, the light emitting layer 150, the electron transport layer 160 are disposed thereon. After forming the organic material layer including the electron injection layer 170, it can be prepared by depositing a material that can be used as a cathode thereon. In addition, the light emitting auxiliary layer 151 may be further formed between the hole transport layer 140 and the light emitting layer 150, and an electron transport auxiliary layer may be further formed between the light emitting layer 150 and the electron transport layer 160.
이에 따라, 본 발명은 상기 제 1전극과 발광층 사이에 1층 이상의 정공수송대역층을 포함하고, 상기 정공수송대역층은 정공수송층, 발광보조층 또는 이 둘을 모두 포함하며, 상기 정공수송대역층이 상기 화학식 1로 표시되는 화합물을 포함하는 유기전기소자를 제공한다.Accordingly, the present invention includes at least one hole transport band layer between the first electrode and the light emitting layer, the hole transport band layer includes a hole transport layer, a light emitting auxiliary layer or both, the hole transport band layer It provides an organic electric device comprising the compound represented by the formula (1).
또한, 본 발명은 상기 화학식 1 및 상기 화학식 2로 나타내는 화합물이 1:9 내지 9:1 중 어느 하나의 비율로 혼합되어 상기 발광층에 포함되는 유기전기소자를 제공하며, 바람직하게는 1:9 내지 5:5로, 보다 바람직하게는 2:8 또는 3:7 비율로 혼합되어 상기 발광층에 포함된다.In addition, the present invention provides an organic electroluminescent device included in the light emitting layer by mixing the compound represented by Formula 1 and Formula 2 in any one ratio of 1: 9 to 9: 1, preferably 1: 9 to 5: 5, more preferably, it is mixed in a ratio of 2: 8 or 3: 7 and included in the light emitting layer.
본 발명은 상기 유기전기소자에서 상기 제 1전극의 일측면 중 상기 유기물층과 반대되는 일측 또는 상기 제 2전극의 일측면 중 상기 유기물층과 반대되는 일측 중 적어도 하나에 형성되는 광효율개선층을 더 포함하는 유기전기소자를 제공한다.The organic electroluminescent device further includes a light efficiency improvement layer formed on at least one of one side of the first electrode opposite to the organic material layer or one side of the second electrode opposite to the organic material layer. An organic electric device is provided.
또한 본 발명에서 상기 유기물층은 스핀코팅 공정, 노즐 프린팅 공정, 잉크젯 프린팅 공정, 슬롯코팅 공정, 딥코팅 공정 및 롤투롤 공정 중 어느 하나에 의해 형성되며, 본 발명에 따른 유기물층은 다양한 방법으로 형성될 수 있으므로, 그 형성방법에 의해 본 발명의 권리범위가 제한되는 것은 아니다. In addition, in the present invention, the organic material layer is formed by any one of a spin coating process, a nozzle printing process, an inkjet printing process, a slot coating process, a dip coating process and a roll-to-roll process, the organic material layer according to the present invention can be formed in various ways Therefore, the scope of the present invention is not limited by the formation method.
본 발명의 일 실시예에 따른 유기전기소자는 사용되는 재료에 따라 전면 발광형, 후면 발광형 또는 양면 발광형일 수 있다.The organic electric element according to an embodiment of the present invention may be a top emission type, a bottom emission type or a double-sided emission type according to the material used.
WOLED(White Organic Light Emitting Device)는 고해상도 실현이 용이하고 공정성이 우수한 한편, 기존의 LCD의 칼라필터 기술을 이용하여 제조될 수 있는 이점이 있다. 주로 백라이트 장치로 사용되는 백색 유기발광소자에 대한 다양한 구조들이 제안되고 특허화되고 있다. 대표적으로, R(Red), G(Green), B(Blue) 발광부들을 상호평면적으로 병렬배치(side-by-side) 방식, R, G, B 발광층이 상하로 적층되는 적층(stacking) 방식이 있고, 청색(B) 유기발광층에 의한 전계발광과 이로부터의 광을 이용하여 무기형광체의 자발광(photo-luminescence)을 이용하는 색변환물질(color conversion material, CCM) 방식 등이 있는데, 본 발명은 이러한 WOLED에도 적용될 수 있을 것이다.WOLED (White Organic Light Emitting Device) has the advantage that can be manufactured using the color filter technology of the existing LCD while being easy to realize high resolution and excellent processability. Various structures for white organic light emitting devices mainly used as backlight devices have been proposed and patented. Representatively, a side-by-side method in which R (Red), G (Green), and B (Blue) light emitting parts are mutually planarized, and a stacking method in which R, G, and B light emitting layers are stacked up and down. And a color conversion material (CCM) method using photo-luminescence of an inorganic phosphor by using electroluminescence by a blue (B) organic light emitting layer and light therefrom. May also be applied to these WOLEDs.
또한 본 발명은 상기한 유기전기소자를 포함하는 디스플레이장치 ; 및 상기 디스플레이장치를 구동하는 제어부;를 포함하는 전자장치를 제공한다. In another aspect, the present invention is a display device comprising the above-mentioned organic electric element; And a controller for driving the display device.
또 다른 측면에서 상기 유기전기소자는 유기전기발광소자, 유기태양전지, 유기감광체, 유기트랜지스터, 및 단색 또는 백색 조명용 소자 중 적어도 하나인 것을 특징으로 하는 전자장치를 본 발명에서 제공한다. 이때, 전자장치는 현재 또는 장래의 유무선 통신단말기일 수 있으며, 휴대폰 등의 이동 통신 단말기, PDA, 전자사전, PMP, 리모콘, 네비게이션, 게임기, 각종 TV, 각종 컴퓨터 등 모든 전자장치를 포함한다.In another aspect, the organic electronic device provides an electronic device according to the present invention, wherein the organic electroluminescent device is at least one of an organic electroluminescent device, an organic solar cell, an organic photoconductor, an organic transistor, and a monochromatic or white illumination device. In this case, the electronic device may be a current or future wired or wireless communication terminal, and includes all electronic devices such as a mobile communication terminal such as a mobile phone, a PDA, an electronic dictionary, a PMP, a remote controller, a navigation device, a game machine, various TVs, and various computers.
이하에서, 본 발명의 상기 화학식 1 및 2로 표시되는 화합물의 합성예 및 본 발명의 유기전기소자의 제조예에 관하여 실시예를 들어 구체적으로 설명하지만, 본 발명의 하기 실시예로 한정되는 것은 아니다.Hereinafter, the synthesis examples of the compounds represented by Chemical Formulas 1 and 2 of the present invention and the production examples of the organic electric device of the present invention will be described in detail with reference to Examples, but are not limited to the following Examples of the present invention. .
[합성예 1]Synthesis Example 1
본 발명에 따른 화학식 1로 표시되는 화합물(final product 1)은 하기 반응식 1과 같이 Sub 1과 Sub 2를 반응시켜 합성되며, 이에 한정되는 것은 아니다. X1, A, B, L1, L2, Ar1 내지 Ar4는 화학식 1에서 정의된 것과 동일하며, Hal1은 Br 또는 Cl이다.Compound represented by Formula 1 according to the present invention (final product 1) is synthesized by reacting Sub 1 and Sub 2 as shown in Scheme 1, but is not limited thereto. X 1 , A, B, L 1 , L 2 , Ar 1 to Ar 4 are the same as defined in Formula 1, and Hal 1 is Br or Cl.
<반응식 1><Scheme 1>
Figure PCTKR2019003116-appb-I000159
Figure PCTKR2019003116-appb-I000159
I. Sub 1의 합성I. Synthesis of Sub 1
상기 반응식 1의 Sub 1은 하기 반응식 2의 반응경로에 의해 합성되며, 이에 한정되는 것은 아니다.Sub 1 of Scheme 1 is synthesized by the reaction route of Scheme 2, but is not limited thereto.
<반응식 2><Scheme 2>
Figure PCTKR2019003116-appb-I000160
Figure PCTKR2019003116-appb-I000160
1. Sub 1-1 합성예1.Sub 1-1 Synthesis Example
Figure PCTKR2019003116-appb-I000161
Figure PCTKR2019003116-appb-I000161
출발물질인 Sub 2-1 (15.22 g, 89.94 mmol)을 둥근바닥플라스크에 toluene (750ml)으로 녹인 후에, Sub 1-1-c (CAS Registry Number: 669773-34-6) (46.14 g, 134.91 mmol), Pd2(dba)3 (2.47 g, 2.70 mmol), P(t-Bu)3 (1.46 g, 7.19 mmol), NaOt-Bu (25.93 g, 269.81 mmol)을 첨가하고 80℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 생성물 23.61 g (수율: 61%)를 얻었다.After starting Sub 2-1 (15.22 g, 89.94 mmol) was dissolved in toluene (750 ml) in a round bottom flask, Sub 1-1-c (CAS Registry Number: 669773-34-6) (46.14 g, 134.91 mmol ), Pd 2 (dba) 3 (2.47 g, 2.70 mmol), P ( t -Bu) 3 (1.46 g, 7.19 mmol), NaO t -Bu (25.93 g, 269.81 mmol) were added and stirred at 80 ° C. . After the reaction was completed, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to give 23.61 g (yield: 61%) of the product.
2. Sub 1-3 합성예2. Sub 1-3 Synthesis Example
Figure PCTKR2019003116-appb-I000162
Figure PCTKR2019003116-appb-I000162
출발물질인 Sub 2-12 (13.94 g, 63.57 mmol)에 Sub 1-3-e (CAS Registry Number: 201138-91-2) (31.08 g, 95.35 mmol), Pd2(dba)3 (1.75 g, 1.91 mmol) P(t-Bu)3 (1.03 g, 5.09 mmol), NaOt-Bu (18.33 g, 190.71 mmol), toluene (530ml)을 첨가하고 상기 Sub 1-1 합성법을 사용하여 생성물 19.78 g (수율: 67%)를 얻었다.Starting material Sub 2-12 (13.94 g, 63.57 mmol) in Sub 1-3-e (CAS Registry Number: 201138-91-2) (31.08 g, 95.35 mmol), Pd 2 (dba) 3 (1.75 g, 1.91 mmol) P ( t -Bu) 3 (1.03 g, 5.09 mmol), NaO t -Bu (18.33 g, 190.71 mmol), toluene (530 ml) were added and the product 19.78 g ( Yield: 67%).
3. Sub 1-5 합성예3. Sub 1-5 Synthesis Example
Figure PCTKR2019003116-appb-I000163
Figure PCTKR2019003116-appb-I000163
Figure PCTKR2019003116-appb-I000164
Figure PCTKR2019003116-appb-I000164
(1) Sub 1-5-a의 합성(1) Synthesis of Sub 1-5-a
출발물질인 (2-bromo-6-iodophenyl)(ethyl)sulfane (9.94 g, 28.98 mmol)을 둥근바닥플라스크에 THF (100ml)로 녹인 후에, (4-chlorophenyl)boronic acid (4.53 g, 28.98 mmol), Pd(PPh3)4 (1.00 g, 0.87 mmol), NaOH (2.32 g, 57.96 mmol), 물 (50ml)을 첨가하고 80℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 생성물 8.55 g (수율: 90%)을 얻었다.The starting material (2-bromo-6-iodophenyl) (ethyl) sulfane (9.94 g, 28.98 mmol) was dissolved in THF (100 ml) in a round bottom flask, followed by (4-chlorophenyl) boronic acid (4.53 g, 28.98 mmol). , Pd (PPh 3 ) 4 (1.00 g, 0.87 mmol), NaOH (2.32 g, 57.96 mmol), water (50ml) were added and stirred at 80 ° C. After the reaction was completed, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to give the product 8.55 g (yield: 90%).
(2) Sub 1-5-b의 합성(2) Synthesis of Sub 1-5-b
상기 합성에서 얻어진 Sub 1-5-a (8.55 g, 26.09 mmol)에 acetic acid (90ml)를 넣고 35% hydrogen peroxide (H2O2) (2.66 g, 78.28 mmol)을 넣고 상온에서 교반한다. 반응이 종료되면 NaOH 수용액으로 중화시킨 뒤, EA로 추출하고 물로 닦아주었다. 유기층을 MgSO4로 건조하고 농축한 후 생성된 유기물을 silicagel column을 이용하여 분리하여 생성물 8.70 g (97%)을 얻었다.Add acetic acid (90ml) to Sub 1-5-a (8.55 g, 26.09 mmol) obtained in the above synthesis, add 35% hydrogen peroxide (H 2 O 2 ) (2.66 g, 78.28 mmol) and stir at room temperature. After the reaction was neutralized with an aqueous NaOH solution, extracted with EA and washed with water. The organic layer was dried over MgSO 4 , concentrated and the resulting organic was separated using a silicagel column to give 8.70 g (97%) of the product.
(3) Sub 1-5-c의 합성(3) Synthesis of Sub 1-5-c
상기 합성에서 얻어진 Sub 1-5-b (8.70 g, 25.32 mmol)에 sulfuric acid (H2SO4) (50ml)를 넣고 상온에서 교반한다. 반응이 종료되면 NaOH 수용액으로 중화시킨 뒤, MC로 추출하고 물로 닦아주었다. 유기층을 MgSO4로 건조하고 농축한 후 생성된 유기물을 silicagel column을 이용하여 분리하여 생성물 7.16 g (95%)을 얻었다.To Sub 1-5-b (8.70 g, 25.32 mmol) obtained in the synthesis was added sulfuric acid (H 2 SO 4 ) (50ml) and stirred at room temperature. After the reaction was neutralized with aqueous NaOH solution, extracted with MC and washed with water. The organic layer was dried over MgSO 4 , concentrated, and the resulting organic was separated using a silicagel column to give 7.16 g (95%) of the product.
(4) Sub 1-5의 합성(4) Synthesis of Sub 1-5
상기 합성에서 얻어진 Sub 1-5-c (7.16 g, 24.06 mmol)을 둥근바닥플라스크에 toluene (240ml)으로 녹인 후에, Sub 2-11 (5.28 g, 24.06 mmol), Pd2(dba)3 (0.66 g, 0.72 mmol), P(t-Bu)3 (0.49 g, 2.41 mmol), NaOt-Bu (4.62 g, 48.12 mmol)을 첨가하고 80℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 생성물 8.08 g (수율: 77%)를 얻었다.Sub 1-5-c (7.16 g, 24.06 mmol) obtained in the above synthesis was dissolved in toluene (240 ml) in a round bottom flask, and then Sub 2-11 (5.28 g, 24.06 mmol) and Pd 2 (dba) 3 (0.66) g, 0.72 mmol), P ( t -Bu) 3 (0.49 g, 2.41 mmol), NaO t -Bu (4.62 g, 48.12 mmol) were added and stirred at 80 ° C. After completion of the reaction, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain 8.08 g (yield: 77%) of the product.
4. Sub 1-17 합성예4. Sub 1-17 Synthesis Example
Figure PCTKR2019003116-appb-I000165
Figure PCTKR2019003116-appb-I000165
Figure PCTKR2019003116-appb-I000166
Figure PCTKR2019003116-appb-I000166
(1) Sub 1-17-a의 합성(1) Synthesis of Sub 1-17-a
출발물질인 (4-bromo-2-iodophenyl)(ethyl)sulfane (10.65 g, 31.05 mmol)에 (4-chloro-[1,1'-biphenyl]-2-yl)boronic acid (7.22 g, 31.05 mmol), Pd(PPh3)4 (1.08 g, 0.93 mmol), NaOH (2.48 g, 62.10 mmol), THF (100ml), 물 (50ml)을 첨가하고 상기 Sub 1-5-a 합성법을 사용하여 생성물 9.90 g (수율: 79%)를 얻었다.(4-chloro- [1,1'-biphenyl] -2-yl) boronic acid (7.22 g, 31.05 mmol) in the starting material (4-bromo-2-iodophenyl) (ethyl) sulfane (10.65 g, 31.05 mmol) ), Pd (PPh 3 ) 4 (1.08 g, 0.93 mmol), NaOH (2.48 g, 62.10 mmol), THF (100 ml), water (50 ml) were added and the product 9.90 was obtained using the Sub 1-5-a synthesis method. g (yield: 79%) was obtained.
(2) Sub 1-17-b의 합성(2) Synthesis of Sub 1-17-b
상기 합성에서 얻어진 Sub 1-17-a (9.90 g, 24.52 mmol), acetic acid (80ml), 35% hydrogen peroxide (H2O2) (2.50 g, 73.56 mmol)을 상기 Sub 1-5-b의 합성법을 사용하여 생성물 9.78 g (95%)을 얻었다.Sub 1-17-a (9.90 g, 24.52 mmol), acetic acid (80 ml), 35% hydrogen peroxide (H 2 O 2 ) (2.50 g, 73.56 mmol) obtained in the above synthesis of Sub 1-5-b Synthesis gave 9.78 g (95%) of product.
(3) Sub 1-17-c의 합성(3) Synthesis of Sub 1-17-c
상기 합성에서 얻어진 Sub 1-17-b (9.78 g, 23.30 mmol), sulfuric acid (H2SO4) (50ml)를 상기 Sub 1-5-c의 합성법을 사용하여 생성물 7.84 g (90%)을 얻었다.Sub 1-17-b (9.78 g, 23.30 mmol) and sulfuric acid (H 2 SO 4 ) (50 ml) obtained in the above synthesis were obtained using 7.84 g (90%) of the product using the synthesis method of Sub 1-5-c. Got it.
(4) Sub 1-17의 합성(4) Synthesis of Sub 1-17
상기 합성에서 얻어진 Sub 1-17-c (7.84 g, 20.98 mmol)에 Sub 2-78 (7.02 g, 20.98 mmol), Pd2(dba)3 (0.58 g, 0.63 mmol) P(t-Bu)3 (0.42 g, 2.10 mmol), NaOt-Bu (4.03 g, 41.96 mmol), toluene (210ml)을 첨가하고 상기 Sub 1-5 합성법을 사용하여 생성물 10.79 g (수율: 82%)를 얻었다.To Sub 1-17-c (7.84 g, 20.98 mmol) obtained in the above synthesis, Sub 2-78 (7.02 g, 20.98 mmol), Pd 2 (dba) 3 (0.58 g, 0.63 mmol) P ( t -Bu) 3 (0.42 g, 2.10 mmol), NaO t -Bu (4.03 g, 41.96 mmol), toluene (210 ml) were added and the product 10.79 g (yield: 82%) was obtained using the Sub 1-5 synthesis.
5. Sub 1-82 합성예5. Sub 1-82 Synthesis Example
Figure PCTKR2019003116-appb-I000167
Figure PCTKR2019003116-appb-I000167
출발물질인 Sub 2-1 (16.48 g, 97.38 mmol)에 Sub 1-82-c (CAS Registry Number: 83834-10-0) (49.96 g, 146.07 mmol), Pd2(dba)3 (2.68 g, 2.92 mmol) P(t-Bu)3 (1.58 g, 7.79 mmol), NaOt-Bu (28.08 g, 292.15 mmol), toluene (810ml)을 첨가하고 상기 Sub 1-1 합성법을 사용하여 생성물 26.40 g (수율: 63%)를 얻었다.Starting material Sub 2-1 (16.48 g, 97.38 mmol) in Sub 1-82-c (CAS Registry Number: 83834-10-0) (49.96 g, 146.07 mmol), Pd 2 (dba) 3 (2.68 g, 2.92 mmol) P ( t -Bu) 3 (1.58 g, 7.79 mmol), NaO t -Bu (28.08 g, 292.15 mmol), toluene (810 ml) were added and the product 26.40 g ( Yield: 63%).
6. Sub 1-102 합성예6. Sub 1-102 Synthesis Example
Figure PCTKR2019003116-appb-I000168
Figure PCTKR2019003116-appb-I000168
Figure PCTKR2019003116-appb-I000169
Figure PCTKR2019003116-appb-I000169
(1) Sub 1-102-d의 합성(1) Synthesis of Sub 1-102-d
출발물질인 4-bromo-2-iodophenol (39.85 g, 133.32 mmol)에 (2-chlorophenyl)boronic acid (20.85 g, 133.32 mmol), Pd(PPh3)4 (4.62 g, 4.00 mmol), NaOH (10.67 g, 266.64 mmol), THF (440ml), 물 (220ml)을 첨가하고 상기 Sub 1-5-a 합성법을 사용하여 생성물 28.73 g (수율: 76%)를 얻었다.4-bromo-2-iodophenol (39.85 g, 133.32 mmol) as a starting material (2-chlorophenyl) boronic acid (20.85 g, 133.32 mmol), Pd (PPh 3 ) 4 (4.62 g, 4.00 mmol), NaOH (10.67) g, 266.64 mmol), THF (440 ml), water (220 ml) were added and 28.73 g (yield: 76%) of product was obtained using the Sub 1-5-a synthesis.
(2) Sub 1-102-e의 합성(2) Synthesis of Sub 1-102-e
상기 합성에서 얻어진 Sub 1-102-d (28.73 g, 101.32 mmol)에 Pd(OAc)2 (2.27 g, 10.13 mmol), 3-nitropyridine (1.26 g, 10.13 mmol), BzOOtBu (tert-butyl peroxybenzoate) (39.36 g, 202.65 mmol), C6F6 (hexafluorobenzene) (150ml), DMI (N,N'-dimethylimidazolidinone) (100ml)을 넣고 90℃에서 3시간 환류시킨다. 반응이 종료되면 반응물의 온도를 상온으로 식히고, EA로 추출하고 물로 닦아준다. 유기층을 MgSO4로 건조하고 농축한 후 생성된 유기물을 silicagel column을 이용하여 분리하여 생성물 13.69 g (48%)을 얻었다.Sub 1-102-d (28.73 g, 101.32 mmol) obtained in the above synthesis of Pd (OAc) 2 (2.27 g, 10.13 mmol), 3-nitropyridine (1.26 g, 10.13 mmol), BzOO t Bu (tert-butyl peroxybenzoate ) (39.36 g, 202.65 mmol), C 6 F 6 (hexafluorobenzene) (150ml) and DMI (N, N'-dimethylimidazolidinone) (100ml) were added and refluxed at 90 ° C for 3 hours. After the reaction is completed, the temperature of the reactant is cooled to room temperature, extracted with EA, and washed with water. The organic layer was dried over MgSO 4 , concentrated and the resulting organics were separated using a silicagel column to give 13.69 g (48%) of the product.
(3) Sub 1-102의 합성(3) Synthesis of Sub 1-102
상기 합성에서 얻어진 Sub 1-102-e (13.69 g, 48.63 mmol)에 Sub 2-29 (13.39 g, 48.63 mmol), Pd2(dba)3 (1.34 g, 1.46 mmol) P(t-Bu)3 (0.98 g, 4.86 mmol), NaOt-Bu (9.35 g, 97.25 mmol), toluene (490ml)을 첨가하고 상기 Sub 1-5 합성법을 사용하여 생성물 19.67 g (수율: 85%)를 얻었다.Sub 1-102-e (13.69 g, 48.63 mmol) obtained in the above synthesis in Sub 2-29 (13.39 g, 48.63 mmol), Pd 2 (dba) 3 (1.34 g, 1.46 mmol) P ( t -Bu) 3 (0.98 g, 4.86 mmol), NaO t -Bu (9.35 g, 97.25 mmol), toluene (490 mL) were added and the product 19.67 g (yield: 85%) was obtained using the Sub 1-5 synthesis.
7. Sub 1-104 합성예7.Sub 1-104 Synthesis Example
Figure PCTKR2019003116-appb-I000170
Figure PCTKR2019003116-appb-I000170
출발물질인 Sub 2-1 (9.15 g, 54.04 mmol)에 Sub 1-104-c (CAS Registry Number: 31574-87-5) (27.73 g, 81.07 mmol), Pd2(dba)3 (1.48 g, 1.62 mmol) P(t-Bu)3 (0.87 g, 4.32 mmol), NaOt-Bu (15.58 g, 162.13 mmol), toluene (450ml)을 첨가하고 상기 Sub 1-1 합성법을 사용하여 생성물 15.12 g (수율: 65%)를 얻었다.Starting material Sub 2-1 (9.15 g, 54.04 mmol) in Sub 1-104-c (CAS Registry Number: 31574-87-5) (27.73 g, 81.07 mmol), Pd 2 (dba) 3 (1.48 g, 1.62 mmol) P ( t -Bu) 3 (0.87 g, 4.32 mmol), NaO t -Bu (15.58 g, 162.13 mmol), toluene (450 ml) were added and the product 15.12 g ( Yield: 65%).
8. Sub 1-112 합성예8. Sub 1-112 Synthesis Example
Figure PCTKR2019003116-appb-I000171
Figure PCTKR2019003116-appb-I000171
Figure PCTKR2019003116-appb-I000172
Figure PCTKR2019003116-appb-I000172
(1) Sub 1-112-a의 합성(1) Synthesis of Sub 1-112-a
출발물질인 (3-bromo-2-iodophenyl)(ethyl)sulfane (12.73 g, 37.11 mmol)에 (2-chlorophenyl)boronic acid (5.80 g, 37.11 mmol), Pd(PPh3)4 (1.29 g, 1.11 mmol), NaOH (2.97 g, 74.22 mmol), THF (120ml), 물 (60ml)을 첨가하고 상기 Sub 1-5-a 합성법을 사용하여 생성물 9.48 g (수율: 78%)를 얻었다.(2-chlorophenyl) boronic acid (5.80 g, 37.11 mmol), Pd (PPh 3 ) 4 (1.29 g, 1.11) in the starting material (3-bromo-2-iodophenyl) (ethyl) sulfane (12.73 g, 37.11 mmol) mmol), NaOH (2.97 g, 74.22 mmol), THF (120 ml), water (60 ml) were added and 9.48 g (yield: 78%) of the product was obtained using the above Sub 1-5-a synthesis.
(2) Sub 1-112-b의 합성(2) Synthesis of Sub 1-112-b
상기 합성에서 얻어진 Sub 1-112-a (9.48 g, 28.93 mmol), acetic acid (95ml), 35% hydrogen peroxide (H2O2) (2.95 g, 86.80 mmol)을 상기 Sub 1-5-b의 합성법을 사용하여 생성물 9.74 g (98%)을 얻었다.Sub 1-112-a (9.48 g, 28.93 mmol), acetic acid (95 ml), 35% hydrogen peroxide (H 2 O 2 ) (2.95 g, 86.80 mmol) obtained in the above synthesis of Sub 1-5-b Synthesis yielded 9.74 g (98%) of product.
(3) Sub 1-112-c의 합성(3) Synthesis of Sub 1-112-c
상기 합성에서 얻어진 Sub 1-112-b (9.74 g, 28.34 mmol), sulfuric acid (H2SO4) (60ml)를 상기 Sub 1-5-c의 합성법을 사용하여 생성물 7.76 g (92%)을 얻었다.Sub 1-112-b (9.74 g, 28.34 mmol) and sulfuric acid (H 2 SO 4 ) (60 ml) obtained in the synthesis were prepared using the synthesis method of Sub 1-5-c to obtain 7.76 g (92%) of the product. Got it.
(4) Sub 1-112의 합성(4) Synthesis of Sub 1-112
상기 합성에서 얻어진 Sub 1-112-c (7.76 g, 26.08 mmol)에 Sub 2-1 (4.41 g, 26.08 mmol), Pd2(dba)3 (0.72 g, 0.78 mmol) P(t-Bu)3 (0.53 g, 2.61 mmol), NaOt-Bu (5.01 g, 52.15 mmol), toluene (260ml)을 첨가하고 상기 Sub 1-5 합성법을 사용하여 생성물 5.84 g (수율: 58%)를 얻었다.Sub 1-112-c (7.76 g, 26.08 mmol) obtained in the above synthesis in Sub 2-1 (4.41 g, 26.08 mmol), Pd 2 (dba) 3 (0.72 g, 0.78 mmol) P ( t -Bu) 3 (0.53 g, 2.61 mmol), NaO t -Bu (5.01 g, 52.15 mmol), toluene (260 ml) were added to give 5.84 g (yield: 58%) of the product using the Sub 1-5 synthesis.
Sub 1에 속하는 화합물은 아래와 같은 화합물일 수 있으나, 이에 한정되는 것은 아니며, 표 1은 Sub 1에 속하는 일부 화합물의 FD-MS(Field Desorption-Mass Spectrometry) 값을 나타낸 것이다.The compound belonging to Sub 1 may be, but is not limited to, the following compounds. Table 1 shows FD-MS (Field Desorption-Mass Spectrometry) values of some compounds belonging to Sub 1.
Figure PCTKR2019003116-appb-I000173
Figure PCTKR2019003116-appb-I000173
Figure PCTKR2019003116-appb-I000174
Figure PCTKR2019003116-appb-I000174
Figure PCTKR2019003116-appb-I000175
Figure PCTKR2019003116-appb-I000175
Figure PCTKR2019003116-appb-I000176
Figure PCTKR2019003116-appb-I000176
Figure PCTKR2019003116-appb-I000177
Figure PCTKR2019003116-appb-I000177
Figure PCTKR2019003116-appb-I000178
Figure PCTKR2019003116-appb-I000178
Figure PCTKR2019003116-appb-I000179
Figure PCTKR2019003116-appb-I000179
Figure PCTKR2019003116-appb-I000180
Figure PCTKR2019003116-appb-I000180
Figure PCTKR2019003116-appb-I000181
Figure PCTKR2019003116-appb-I000181
Figure PCTKR2019003116-appb-I000182
Figure PCTKR2019003116-appb-I000182
Figure PCTKR2019003116-appb-I000183
Figure PCTKR2019003116-appb-I000183
Figure PCTKR2019003116-appb-I000184
Figure PCTKR2019003116-appb-I000184
Figure PCTKR2019003116-appb-I000185
Figure PCTKR2019003116-appb-I000185
Figure PCTKR2019003116-appb-I000186
Figure PCTKR2019003116-appb-I000186
Figure PCTKR2019003116-appb-I000187
Figure PCTKR2019003116-appb-I000187
Figure PCTKR2019003116-appb-I000188
Figure PCTKR2019003116-appb-I000188
Figure PCTKR2019003116-appb-I000189
Figure PCTKR2019003116-appb-I000189
Figure PCTKR2019003116-appb-I000190
Figure PCTKR2019003116-appb-I000190
화합물compound FD-MSFD-MS 화합물compound FD-MSFD-MS
Sub 1-1Sub 1-1 m/z=429.02(C24H16BrNS=430.36)m / z = 429.02 (C 24 H 16 BrNS = 430.36) Sub 1-2Sub 1-2 m/z=413.04(C24H16BrNO=414.30)m / z = 413.04 (C 24 H 16 BrNO = 414.30)
Sub 1-3Sub 1-3 m/z=463.06(C28H18BrNO=464.36)m / z = 463.06 (C 28 H 18 BrNO = 464.36) Sub 1-4Sub 1-4 m/z=385.07(C24H16ClNS=385.91)m / z = 385.07 (C 24 H 16 ClNS = 385.91)
Sub 1-5Sub 1-5 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97) Sub 1-6Sub 1-6 m/z=567.09(C36H22ClNS2=568.15)m / z = 567.09 (C 36 H 22 ClNS 2 = 568.15)
Sub 1-7Sub 1-7 m/z=551.11(C36H22ClNOS=552.09)m / z = 551.11 (C 36 H 22 ClNOS = 552.09) Sub 1-8Sub 1-8 m/z=501.13(C33H24ClNS=502.07)m / z = 501.13 (C 33 H 24 ClNS = 502.07)
Sub 1-9Sub 1-9 m/z=445.12(C30H20ClNO=445.95)m / z = 445.12 (C 30 H 20 ClNO = 445.95) Sub 1-10Sub 1-10 m/z=445.12(C30H20ClNO=445.95)m / z = 445.12 (C 30 H 20 ClNO = 445.95)
Sub 1-11Sub 1-11 m/z=385.07(C24H16ClNS=385.91)m / z = 385.07 (C 24 H 16 ClNS = 385.91) Sub 1-12Sub 1-12 m/z=491.06(C30H18ClNS2=492.05)m / z = 491.06 (C 30 H 18 ClNS 2 = 492.05)
Sub 1-13Sub 1-13 m/z=567.09(C36H22ClNS2=568.15)m / z = 567.09 (C 36 H 22 ClNS 2 = 568.15) Sub 1-14Sub 1-14 m/z=541.07(C34H20ClNS2=542.11)m / z = 541.07 (C 34 H 20 ClNS 2 = 542.11)
Sub 1-15Sub 1-15 m/z=575.11(C38H22ClNOS=576.11)m / z = 575.11 (C 38 H 22 ClNOS = 576.11) Sub 1-16Sub 1-16 m/z=552.11(C35H21ClN2OS=553.08)m / z = 552.11 (C 35 H 21 ClN 2 OS = 553.08)
Sub 1-17Sub 1-17 m/z=626.16(C42H27ClN2S=627.20)m / z = 626.16 (C 42 H 27 ClN 2 S = 627.20) Sub 1-18Sub 1-18 m/z=643.12(C42H26ClNS2=644.25)m / z = 643.12 (C 42 H 26 ClNS 2 = 644.25)
Sub 1-19Sub 1-19 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97) Sub 1-20Sub 1-20 m/z=369.09(C24H16ClNO=369.85)m / z = 369.09 (C 24 H 16 ClNO = 369.85)
Sub 1-21Sub 1-21 m/z=475.08(C30H18ClNOS=475.99)m / z = 475.08 (C 30 H 18 ClNOS = 475.99) Sub 1-22Sub 1-22 m/z=565.09(C36H20ClNO2S=566.07)m / z = 565.09 (C 36 H 20 ClNO 2 S = 566.07)
Sub 1-23Sub 1-23 m/z=519.14(C36H22ClNO=520.03)m / z = 519.14 (C 36 H 22 ClNO = 520.03) Sub 1-24Sub 1-24 m/z=385.07(C24H16ClNS=385.91)m / z = 385.07 (C 24 H 16 ClNS = 385.91)
Sub 1-25Sub 1-25 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97) Sub 1-26Sub 1-26 m/z=567.09(C36H22ClNS2=568.15)m / z = 567.09 (C 36 H 22 ClNS 2 = 568.15)
Sub 1-27Sub 1-27 m/z=597.04(C36H20ClNS3=598.19)m / z = 597.04 (C 36 H 20 ClNS 3 = 598.19) Sub 1-28Sub 1-28 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97)
Sub 1-29Sub 1-29 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97) Sub 1-30Sub 1-30 m/z=485.10(C32H20ClNS=486.03)m / z = 485.10 (C 32 H 20 ClNS = 486.03)
Sub 1-31Sub 1-31 m/z=591.14(C39H26ClNOS=592.15)m / z = 591.14 (C 39 H 26 ClNOS = 592.15) Sub 1-32Sub 1-32 m/z=559.13(C38H22ClNO2=560.05)m / z = 559.13 (C 38 H 22 ClNO 2 = 560.05)
Sub 1-33Sub 1-33 m/z=677.16(C46H28ClNOS=678.25)m / z = 677.16 (C 46 H 28 ClNOS = 678.25) Sub 1-34Sub 1-34 m/z=385.07(C24H16ClNS=385.91)m / z = 385.07 (C 24 H 16 ClNS = 385.91)
Sub 1-35Sub 1-35 m/z=399.08(C25H18ClNS=399.94)m / z = 399.08 (C 25 H 18 ClNS = 399.94) Sub 1-36Sub 1-36 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97)
Sub 1-37Sub 1-37 m/z=461.10(C30H20ClNS=462.01)m / z = 461.10 (C 30 H 20 ClNS = 462.01) Sub 1-38Sub 1-38 m/z=511.12(C34H22ClNS=512.07)m / z = 511.12 (C 34 H 22 ClNS = 512.07)
Sub 1-39Sub 1-39 m/z=399.08(C25H18ClNS=399.94)m / z = 399.08 (C 25 H 18 ClNS = 399.94) Sub 1-40Sub 1-40 m/z=461.10(C30H20ClNS=462.01)m / z = 461.10 (C 30 H 20 ClNS = 462.01)
Sub 1-41Sub 1-41 m/z=491.06(C30H18ClNS2=492.05)m / z = 491.06 (C 30 H 18 ClNS 2 = 492.05) Sub 1-42Sub 1-42 m/z=491.06(C30H18ClNS2=492.05)m / z = 491.06 (C 30 H 18 ClNS 2 = 492.05)
Sub 1-43Sub 1-43 m/z=491.06(C30H18ClNS2=492.05)m / z = 491.06 (C 30 H 18 ClNS 2 = 492.05) Sub 1-44Sub 1-44 m/z=541.07(C34H20ClNS2=542.11)m / z = 541.07 (C 34 H 20 ClNS 2 = 542.11)
Sub 1-45Sub 1-45 m/z=643.12(C42H26ClNS2=644.25)m / z = 643.12 (C 42 H 26 ClNS 2 = 644.25) Sub 1-46Sub 1-46 m/z=607.12(C39H26ClNS2=608.21)m / z = 607.12 (C 39 H 26 ClNS 2 = 608.21)
Sub 1-47Sub 1-47 m/z=541.07(C34H20ClNS2=542.11)m / z = 541.07 (C 34 H 20 ClNS 2 = 542.11) Sub 1-48Sub 1-48 m/z=475.08(C30H18ClNOS=475.99)m / z = 475.08 (C 30 H 18 ClNOS = 475.99)
Sub 1-49Sub 1-49 m/z=626.16(C42H27ClN2S=627.20)m / z = 626.16 (C 42 H 27 ClN 2 S = 627.20) Sub 1-50Sub 1-50 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97)
Sub 1-51Sub 1-51 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97) Sub 1-52Sub 1-52 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97)
Sub 1-53Sub 1-53 m/z=541.07(C34H20ClNS2=542.11)m / z = 541.07 (C 34 H 20 ClNS 2 = 542.11) Sub 1-54Sub 1-54 m/z=555.09(C35H22ClNS2=556.14)m / z = 555.09 (C 35 H 22 ClNS 2 = 556.14)
Sub 1-55Sub 1-55 m/z=525.10(C34H20ClNOS=526.05)m / z = 525.10 (C 34 H 20 ClNOS = 526.05) Sub 1-56Sub 1-56 m/z=513.13(C34H24ClNS=514.08)m / z = 513.13 (C 34 H 24 ClNS = 514.08)
Sub 1-57Sub 1-57 m/z=485.10(C32H20ClNS=486.03)m / z = 485.10 (C 32 H 20 ClNS = 486.03) Sub 1-58Sub 1-58 m/z=537.13(C36H24ClNS=538.11)m / z = 537.13 (C 36 H 24 ClNS = 538.11)
Sub 1-59Sub 1-59 m/z=626.16(C42H27ClN2S=627.20)m / z = 626.16 (C 42 H 27 ClN 2 S = 627.20) Sub 1-60Sub 1-60 m/z=369.09(C24H16ClNO=369.85)m / z = 369.09 (C 24 H 16 ClNO = 369.85)
Sub 1-61Sub 1-61 m/z=445.12(C30H20ClNO=445.95)m / z = 445.12 (C 30 H 20 ClNO = 445.95) Sub 1-62Sub 1-62 m/z=495.14(C34H22ClNO=496.01)m / z = 495.14 (C 34 H 22 ClNO = 496.01)
Sub 1-63Sub 1-63 m/z=459.10(C30H18ClNO2=459.93)m / z = 459.10 (C 30 H 18 ClNO 2 = 459.93) Sub 1-64Sub 1-64 m/z=534.15(C36H23ClN2O=535.04)m / z = 534.15 (C 36 H 23 ClN 2 O = 535.04)
Sub 1-65Sub 1-65 m/z=535.17(C37H26ClNO=536.07)m / z = 535.17 (C 37 H 26 ClNO = 536.07) Sub 1-66Sub 1-66 m/z=525.10(C34H20ClNOS=526.05)m / z = 525.10 (C 34 H 20 ClNOS = 526.05)
Sub 1-67Sub 1-67 m/z=385.07(C24H16ClNS=385.91)m / z = 385.07 (C 24 H 16 ClNS = 385.91) Sub 1-68Sub 1-68 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97)
Sub 1-69Sub 1-69 m/z=461.10(C30H20ClNS=462.01)m / z = 461.10 (C 30 H 20 ClNS = 462.01) Sub 1-70Sub 1-70 m/z=611.15(C42H26ClNS=612.19)m / z = 611.15 (C 42 H 26 ClNS = 612.19)
Sub 1-71Sub 1-71 m/z=567.09(C36H22ClNS2=568.15)m / z = 567.09 (C 36 H 22 ClNS 2 = 568.15) Sub 1-72Sub 1-72 m/z=541.07(C34H20ClNS2=542.11)m / z = 541.07 (C 34 H 20 ClNS 2 = 542.11)
Sub 1-73Sub 1-73 m/z=475.08(C30H18ClNOS=475.99)m / z = 475.08 (C 30 H 18 ClNOS = 475.99) Sub 1-74Sub 1-74 m/z=551.11(C36H22ClNOS=552.09)m / z = 551.11 (C 36 H 22 ClNOS = 552.09)
Sub 1-75Sub 1-75 m/z=591.14(C39H26ClNOS=592.15)m / z = 591.14 (C 39 H 26 ClNOS = 592.15) Sub 1-76Sub 1-76 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97)
Sub 1-77Sub 1-77 m/z=591.09(C38H22ClNS2=592.17)m / z = 591.09 (C 38 H 22 ClNS 2 = 592.17) Sub 1-78Sub 1-78 m/z=537.13(C36H24ClNS=538.11)m / z = 537.13 (C 36 H 24 ClNS = 538.11)
Sub 1-79Sub 1-79 m/z=379.15(C24H6D10ClNO=379.91)m / z = 379.15 (C 24 H 6 D 10 ClNO = 379.91) Sub 1-80Sub 1-80 m/z=459.10(C30H18ClNO2=459.93)m / z = 459.10 (C 30 H 18 ClNO 2 = 459.93)
Sub 1-81Sub 1-81 m/z=445.12(C30H20ClNO=445.95)m / z = 445.12 (C 30 H 20 ClNO = 445.95) Sub 1-82Sub 1-82 m/z=429.02(C24H16BrNS=430.36)m / z = 429.02 (C 24 H 16 BrNS = 430.36)
Sub 1-83Sub 1-83 m/z=443.03(C25H18BrNS=444.39)m / z = 443.03 (C 25 H 18 BrNS = 444.39) Sub 1-84Sub 1-84 m/z=479.03(C28H18BrNS=480.42)m / z = 479.03 (C 28 H 18 BrNS = 480.42)
Sub 1-85Sub 1-85 m/z=485.10(C32H20ClNS=486.03)m / z = 485.10 (C 32 H 20 ClNS = 486.03) Sub 1-86Sub 1-86 m/z=545.12(C34H24ClNO2S=546.08)m / z = 545.12 (C 34 H 24 ClNO 2 S = 546.08)
Sub 1-87Sub 1-87 m/z=413.04(C24H16BrNO=414.30)m / z = 413.04 (C 24 H 16 BrNO = 414.30) Sub 1-88Sub 1-88 m/z=529.10(C33H24BrNO=530.47)m / z = 529.10 (C 33 H 24 BrNO = 530.47)
Sub 1-89Sub 1-89 m/z=589.10(C38H24BrNO=590.52)m / z = 589.10 (C 38 H 24 BrNO = 590.52) Sub 1-90Sub 1-90 m/z=385.07(C24H16ClNS=385.91)m / z = 385.07 (C 24 H 16 ClNS = 385.91)
Sub 1-91Sub 1-91 m/z=537.13(C36H24ClNS=538.11)m / z = 537.13 (C 36 H 24 ClNS = 538.11) Sub 1-92Sub 1-92 m/z=491.06(C30H18ClNS2=492.05)m / z = 491.06 (C 30 H 18 ClNS 2 = 492.05)
Sub 1-93Sub 1-93 m/z=567.09(C36H22ClNS2=568.15)m / z = 567.09 (C 36 H 22 ClNS 2 = 568.15) Sub 1-94Sub 1-94 m/z=567.09(C36H22ClNS2=568.15)m / z = 567.09 (C 36 H 22 ClNS 2 = 568.15)
Sub 1-95Sub 1-95 m/z=551.11(C36H22ClNOS=552.09)m / z = 551.11 (C 36 H 22 ClNOS = 552.09) Sub 1-96Sub 1-96 m/z=683.15(C45H30ClNS2=684.31)m / z = 683.15 (C 45 H 30 ClNS 2 = 684.31)
Sub 1-97Sub 1-97 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97) Sub 1-98Sub 1-98 m/z=591.09(C38H22ClNS2=592.17)m / z = 591.09 (C 38 H 22 ClNS 2 = 592.17)
Sub 1-99Sub 1-99 m/z=748.18(C49H33ClN2S2=749.39)m / z = 748.18 (C 49 H 33 ClN 2 S 2 = 749.39) Sub 1-100Sub 1-100 m/z=369.09(C24H16ClNO=369.85)m / z = 369.09 (C 24 H 16 ClNO = 369.85)
Sub 1-101Sub 1-101 m/z=419.11(C28H18ClNO=419.91)m / z = 419.11 (C 28 H 18 ClNO = 419.91) Sub 1-102Sub 1-102 m/z=475.08(C30H18ClNOS=475.99)m / z = 475.08 (C 30 H 18 ClNOS = 475.99)
Sub 1-103Sub 1-103 m/z=625.13(C42H24ClNOS=626.17)m / z = 625.13 (C 42 H 24 ClNOS = 626.17) Sub 1-104Sub 1-104 m/z=429.02(C24H16BrNS=430.36)m / z = 429.02 (C 24 H 16 BrNS = 430.36)
Sub 1-105Sub 1-105 m/z=479.03(C28H18BrNS=480.42)m / z = 479.03 (C 28 H 18 BrNS = 480.42) Sub 1-106Sub 1-106 m/z=505.05(C30H20BrNS=506.46)m / z = 505.05 (C 30 H 20 BrNS = 506.46)
Sub 1-107Sub 1-107 m/z=435.08(C28H18ClNS=435.97)m / z = 435.08 (C 28 H 18 ClNS = 435.97) Sub 1-108Sub 1-108 m/z=541.07(C34H20ClNS2=542.11)m / z = 541.07 (C 34 H 20 ClNS 2 = 542.11)
Sub 1-109Sub 1-109 m/z=489.07(C30H20BrNO=490.40)m / z = 489.07 (C 30 H 20 BrNO = 490.40) Sub 1-110Sub 1-110 m/z=565.10(C36H24BrNO=566.50)m / z = 565.10 (C 36 H 24 BrNO = 566.50)
Sub 1-111Sub 1-111 m/z=716.15(C47H29BrN2O=717.67)m / z = 716.15 (C 47 H 29 BrN 2 O = 717.67) Sub 1-112Sub 1-112 m/z=385.07(C24H16ClNS=385.91)m / z = 385.07 (C 24 H 16 ClNS = 385.91)
Sub 1-113Sub 1-113 m/z=511.12(C34H22ClNS=512.07)m / z = 511.12 (C 34 H 22 ClNS = 512.07) Sub 1-114Sub 1-114 m/z=557.14(C35H28ClNSSi=558.21)m / z = 557.14 (C 35 H 28 ClNSSi = 558.21)
Sub 1-115Sub 1-115 m/z=495.14(C34H22ClNO=496.01)m / z = 495.14 (C 34 H 22 ClNO = 496.01) Sub 1-116Sub 1-116 m/z=575.11(C38H22ClNOS=576.11)m / z = 575.11 (C 38 H 22 ClNOS = 576.11)
Sub 1-117Sub 1-117 m/z=469.12(C32H20ClNO=469.97)m / z = 469.12 (C 32 H 20 ClNO = 469.97) Sub 1-118Sub 1-118 m/z=469.12(C32H20ClNO=469.97)m / z = 469.12 (C 32 H 20 ClNO = 469.97)
Sub 1-119Sub 1-119 m/z=635.17(C44H26ClNO2=636.15)m / z = 635.17 (C 44 H 26 ClNO 2 = 636.15) Sub 1-120Sub 1-120 m/z=650.16(C44H27ClN2S=651.22)m / z = 650.16 (C 44 H 27 ClN 2 S = 651.22)
Sub 1-121Sub 1-121 m/z=585.13(C40H24ClNS=586.15)m / z = 585.13 (C 40 H 24 ClNS = 586.15)
II. Sub 2의 합성II. Synthesis of Sub 2
상기 반응식 3의 Sub 2는 하기 반응식 3의 반응경로에 의해 합성(본 출원인의 한국등록특허 제10-1251451호 (2013.04.05일자 등록공고)에 개시)될 수 있으나, 이에 한정되는 것은 아니다.Sub 2 of Scheme 3 may be synthesized by the reaction route of Scheme 3 (disclosed in Korean Patent Registration No. 10-1251451 (published on April 5, 2013) of the present applicant), but is not limited thereto.
Z1은 Ar1 또는 Ar3이고, Z2는 Ar2 또는 Ar4이다.Z 1 is Ar 1 or Ar 3 , and Z 2 is Ar 2 or Ar 4 .
<반응식 3><Scheme 3>
Figure PCTKR2019003116-appb-I000191
Figure PCTKR2019003116-appb-I000191
Sub 2에 속하는 화합물은 아래와 같은 화합물일 수 있으나, 이에 한정되는 것은 아니며, 표 2는 Sub 2에 속하는 일부 화합물의 FD-MS(Field Desorption-Mass Spectrometry) 값을 나타낸 것이다.Compounds belonging to Sub 2 may be the following compounds, but are not limited thereto, and Table 2 shows Field Desorption-Mass Spectrometry (FD-MS) values of some compounds belonging to Sub 2.
Figure PCTKR2019003116-appb-I000192
Figure PCTKR2019003116-appb-I000192
Figure PCTKR2019003116-appb-I000193
Figure PCTKR2019003116-appb-I000193
Figure PCTKR2019003116-appb-I000194
Figure PCTKR2019003116-appb-I000194
Figure PCTKR2019003116-appb-I000195
Figure PCTKR2019003116-appb-I000195
Figure PCTKR2019003116-appb-I000196
Figure PCTKR2019003116-appb-I000196
Figure PCTKR2019003116-appb-I000197
Figure PCTKR2019003116-appb-I000197
Figure PCTKR2019003116-appb-I000198
Figure PCTKR2019003116-appb-I000198
Figure PCTKR2019003116-appb-I000199
Figure PCTKR2019003116-appb-I000199
Figure PCTKR2019003116-appb-I000200
Figure PCTKR2019003116-appb-I000200
Figure PCTKR2019003116-appb-I000201
Figure PCTKR2019003116-appb-I000201
Figure PCTKR2019003116-appb-I000202
Figure PCTKR2019003116-appb-I000202
화합물compound FD-MSFD-MS 화합물compound FD-MSFD-MS
Sub 2-1Sub 2-1 m/z=169.09(C12H11N=169.23)m / z = 169.09 (C 12 H 11 N = 169.23) Sub 2-2Sub 2-2 m/z=183.10(C13H13N=183.25)m / z = 183.10 (C 13 H 13 N = 183.25)
Sub 2-3Sub 2-3 m/z=183.10(C13H13N=183.25)m / z = 183.10 (C 13 H 13 N = 183.25) Sub 2-4Sub 2-4 m/z=187.08(C12H10FN=187.22)m / z = 187.08 (C 12 H 10 FN = 187.22)
Sub 2-5Sub 2-5 m/z=194.08(C13H10N2=194.24)m / z = 194.08 (C 13 H 10 N 2 = 194.24) Sub 2-6Sub 2-6 m/z=197.12(C14H15N=197.28)m / z = 197.12 (C 14 H 15 N = 197.28)
Sub 2-7Sub 2-7 m/z=241.13(C15H19NSi=241.41)m / z = 241.13 (C 15 H 19 NSi = 241.41) Sub 2-8Sub 2-8 m/z=229.11(C14H15NO2=229.28)m / z = 229.11 (C 14 H 15 NO 2 = 229.28)
Sub 2-9Sub 2-9 m/z=174.12(C12H6D5N=174.26)m / z = 174.12 (C 12 H 6 D 5 N = 174.26) Sub 2-10Sub 2-10 m/z=179.15(C12HD10N=179.29)m / z = 179.15 (C 12 HD 10 N = 179.29)
Sub 2-11Sub 2-11 m/z=219.10(C16H13N=219.29)m / z = 219.10 (C 16 H 13 N = 219.29) Sub 2-12Sub 2-12 m/z=219.10(C16H13N=219.29)m / z = 219.10 (C 16 H 13 N = 219.29)
Sub 2-13Sub 2-13 m/z=269.12(C20H15N=269.35)m / z = 269.12 (C 20 H 15 N = 269.35) Sub 2-14Sub 2-14 m/z=245.12(C18H15N=245.33)m / z = 245.12 (C 18 H 15 N = 245.33)
Sub 2-15Sub 2-15 m/z=250.15(C18H10D5N=250.36)m / z = 250.15 (C 18 H 10 D 5 N = 250.36) Sub 2-16Sub 2-16 m/z=245.12(C18H15N=245.33)m / z = 245.12 (C 18 H 15 N = 245.33)
Sub 2-17Sub 2-17 m/z=269.12(C20H15N=269.35)m / z = 269.12 (C 20 H 15 N = 269.35) Sub 2-18Sub 2-18 m/z=321.15(C24H19N=321.42)m / z = 321.15 (C 24 H 19 N = 321.42)
Sub 2-19Sub 2-19 m/z=321.15(C24H19N=321.42)m / z = 321.15 (C 24 H 19 N = 321.42) Sub 2-20Sub 2-20 m/z=321.15(C24H19N=321.42)m / z = 321.15 (C 24 H 19 N = 321.42)
Sub 2-21Sub 2-21 m/z=295.14(C22H17N=295.39)m / z = 295.14 (C 22 H 17 N = 295.39) Sub 2-22Sub 2-22 m/z=321.15(C24H19N=321.42)m / z = 321.15 (C 24 H 19 N = 321.42)
Sub 2-23Sub 2-23 m/z=321.15(C24H19N=321.42)m / z = 321.15 (C 24 H 19 N = 321.42) Sub 2-24Sub 2-24 m/z=397.18(C30H23N=397.52)m / z = 397.18 (C 30 H 23 N = 397.52)
Sub 2-25Sub 2-25 m/z=295.14(C22H17N=295.39)m / z = 295.14 (C 22 H 17 N = 295.39) Sub 2-26Sub 2-26 m/z=295.14(C22H17N=295.39)m / z = 295.14 (C 22 H 17 N = 295.39)
Sub 2-27Sub 2-27 m/z=345.15(C26H19N=345.45)m / z = 345.15 (C 26 H 19 N = 345.45) Sub 2-28Sub 2-28 m/z=395.17(C30H21N=395.51)m / z = 395.17 (C 30 H 21 N = 395.51)
Sub 2-29Sub 2-29 m/z=275.08(C18H13NS=275.37)m / z = 275.08 (C 18 H 13 NS = 275.37) Sub 2-30Sub 2-30 m/z=289.09(C19H15NS=289.40)m / z = 289.09 (C 19 H 15 NS = 289.40)
Sub 2-31Sub 2-31 m/z=293.07(C18H12FNS=293.36)m / z = 293.07 (C 18 H 12 FNS = 293.36) Sub 2-32Sub 2-32 m/z=289.09(C19H15NS=289.40)m / z = 289.09 (C 19 H 15 NS = 289.40)
Sub 2-33Sub 2-33 m/z=289.09(C19H15NS=289.40)m / z = 289.09 (C 19 H 15 NS = 289.40) Sub 2-34Sub 2-34 m/z=351.11(C24H17NS=351.47)m / z = 351.11 (C 24 H 17 NS = 351.47)
Sub 2-35Sub 2-35 m/z=365.12(C25H19NS=365.49)m / z = 365.12 (C 25 H 19 NS = 365.49) Sub 2-36Sub 2-36 m/z=367.10(C24H17NOS=367.47)m / z = 367.10 (C 24 H 17 NOS = 367.47)
Sub 2-37Sub 2-37 m/z=351.11(C24H17NS=351.47)m / z = 351.11 (C 24 H 17 NS = 351.47) Sub 2-38Sub 2-38 m/z=351.11(C24H17NS=351.47)m / z = 351.11 (C 24 H 17 NS = 351.47)
Sub 2-39Sub 2-39 m/z=351.11(C24H17NS=351.47)m / z = 351.11 (C 24 H 17 NS = 351.47) Sub 2-40Sub 2-40 m/z=259.10(C18H13NO=259.31)m / z = 259.10 (C 18 H 13 NO = 259.31)
Sub 2-41Sub 2-41 m/z=309.12(C22H15NO=309.37)m / z = 309.12 (C 22 H 15 NO = 309.37) Sub 2-42Sub 2-42 m/z=335.13(C24H17NO=335.41)m / z = 335.13 (C 24 H 17 NO = 335.41)
Sub 2-43Sub 2-43 m/z=335.13(C24H17NO=335.41)m / z = 335.13 (C 24 H 17 NO = 335.41) Sub 2-44Sub 2-44 m/z=359.13(C26H17NO=359.43)m / z = 359.13 (C 26 H 17 NO = 359.43)
Sub 2-45Sub 2-45 m/z=409.15(C30H19NO=409.49)m / z = 409.15 (C 30 H 19 NO = 409.49) Sub 2-46Sub 2-46 m/z=336.13(C23H16N2O=336.39)m / z = 336.13 (C 23 H 16 N 2 O = 336.39)
Sub 2-47Sub 2-47 m/z=275.08(C18H13NS=275.37)m / z = 275.08 (C 18 H 13 NS = 275.37) Sub 2-48Sub 2-48 m/z=325.09(C22H15NS=325.43)m / z = 325.09 (C 22 H 15 NS = 325.43)
Sub 2-49Sub 2-49 m/z=351.11(C24H17NS=351.47)m / z = 351.11 (C 24 H 17 NS = 351.47) Sub 2-50Sub 2-50 m/z=259.10(C18H13NO=259.31)m / z = 259.10 (C 18 H 13 NO = 259.31)
Sub 2-51Sub 2-51 m/z=309.12(C22H15NO=309.37)m / z = 309.12 (C 22 H 15 NO = 309.37) Sub 2-52Sub 2-52 m/z=335.13(C24H17NO=335.41)m / z = 335.13 (C 24 H 17 NO = 335.41)
Sub 2-53Sub 2-53 m/z=335.13(C24H17NO=335.41)m / z = 335.13 (C 24 H 17 NO = 335.41) Sub 2-54Sub 2-54 m/z=411.16(C30H21NO=411.50)m / z = 411.16 (C 30 H 21 NO = 411.50)
Sub 2-55Sub 2-55 m/z=275.08(C18H13NS=275.37)m / z = 275.08 (C 18 H 13 NS = 275.37) Sub 2-56Sub 2-56 m/z=351.11(C24H17NS=351.47)m / z = 351.11 (C 24 H 17 NS = 351.47)
Sub 2-57Sub 2-57 m/z=259.10(C18H13NO=259.31)m / z = 259.10 (C 18 H 13 NO = 259.31) Sub 2-58Sub 2-58 m/z=309.12(C22H15NO=309.37)m / z = 309.12 (C 22 H 15 NO = 309.37)
Sub 2-59Sub 2-59 m/z=335.13(C24H17NO=335.41)m / z = 335.13 (C 24 H 17 NO = 335.41) Sub 2-60Sub 2-60 m/z=275.08(C18H13NS=275.37)m / z = 275.08 (C 18 H 13 NS = 275.37)
Sub 2-61Sub 2-61 m/z=351.11(C24H17NS=351.47)m / z = 351.11 (C 24 H 17 NS = 351.47) Sub 2-62Sub 2-62 m/z=335.13(C24H17NO=335.41)m / z = 335.13 (C 24 H 17 NO = 335.41)
Sub 2-63Sub 2-63 m/z=427.14(C30H21NS=427.57)m / z = 427.14 (C 30 H 21 NS = 427.57) Sub 2-64Sub 2-64 m/z=477.16(C34H23NS=477.63)m / z = 477.16 (C 34 H 23 NS = 477.63)
Sub 2-65Sub 2-65 m/z=381.06(C24H15NS2=381.51)m / z = 381.06 (C 24 H 15 NS 2 = 381.51) Sub 2-66Sub 2-66 m/z=457.10(C30H19NS2=457.61)m / z = 457.10 (C 30 H 19 NS 2 = 457.61)
Sub 2-67Sub 2-67 m/z=349.11(C24H15NO2=349.39)m / z = 349.11 (C 24 H 15 NO 2 = 349.39) Sub 2-68Sub 2-68 m/z=349.11(C24H15NO2=349.39)m / z = 349.11 (C 24 H 15 NO 2 = 349.39)
Sub 2-69Sub 2-69 m/z=365.09(C24H15NOS=365.45)m / z = 365.09 (C 24 H 15 NOS = 365.45) Sub 2-70Sub 2-70 m/z=325.09(C22H15NS=325.43)m / z = 325.09 (C 22 H 15 NS = 325.43)
Sub 2-71Sub 2-71 m/z=325.09(C22H15NS=325.43)m / z = 325.09 (C 22 H 15 NS = 325.43) Sub 2-72Sub 2-72 m/z=325.09(C22H15NS=325.43)m / z = 325.09 (C 22 H 15 NS = 325.43)
Sub 2-73Sub 2-73 m/z=325.09(C22H15NS=325.43)m / z = 325.09 (C 22 H 15 NS = 325.43) Sub 2-74Sub 2-74 m/z=325.09(C22H15NS=325.43)m / z = 325.09 (C 22 H 15 NS = 325.43)
Sub 2-75Sub 2-75 m/z=435.16(C32H21NO=435.53)m / z = 435.16 (C 32 H 21 NO = 435.53) Sub 2-76Sub 2-76 m/z=309.12(C22H15NO=309.37)m / z = 309.12 (C 22 H 15 NO = 309.37)
Sub 2-77Sub 2-77 m/z=325.09(C22H15NS=325.43)m / z = 325.09 (C 22 H 15 NS = 325.43) Sub 2-78Sub 2-78 m/z=334.15(C24H18N2=334.42)m / z = 334.15 (C 24 H 18 N 2 = 334.42)
Sub 2-79Sub 2-79 m/z=410.18(C30H22N2=410.52)m / z = 410.18 (C 30 H 22 N 2 = 410.52) Sub 2-80Sub 2-80 m/z=440.13(C30H20N2S=440.56)m / z = 440.13 (C 30 H 20 N 2 S = 440.56)
Sub 2-81Sub 2-81 m/z=436.19(C32H24N2=436.56)m / z = 436.19 (C 32 H 24 N 2 = 436.56) Sub 2-82Sub 2-82 m/z=334.15(C24H18N2=334.42)m / z = 334.15 (C 24 H 18 N 2 = 334.42)
Sub 2-83Sub 2-83 m/z=410.18(C30H22N2=410.52)m / z = 410.18 (C 30 H 22 N 2 = 410.52) Sub 2-84Sub 2-84 m/z=334.15(C24H18N2=334.42)m / z = 334.15 (C 24 H 18 N 2 = 334.42)
Sub 2-85Sub 2-85 m/z=334.15(C24H18N2=334.42)m / z = 334.15 (C 24 H 18 N 2 = 334.42) Sub 2-86Sub 2-86 m/z=285.15(C21H19N=285.39)m / z = 285.15 (C 21 H 19 N = 285.39)
Sub 2-87Sub 2-87 m/z=361.18(C27H23N=361.49)m / z = 361.18 (C 27 H 23 N = 361.49) Sub 2-88Sub 2-88 m/z=285.15(C21H19N=285.39)m / z = 285.15 (C 21 H 19 N = 285.39)
Sub 2-89Sub 2-89 m/z=435.20(C33H25N=435.57)m / z = 435.20 (C 33 H 25 N = 435.57) Sub 2-90Sub 2-90 m/z=335.17(C25H21N=335.45)m / z = 335.17 (C 25 H 21 N = 335.45)
Sub 2-91Sub 2-91 m/z=391.14(C27H21NS=391.53)m / z = 391.14 (C 27 H 21 NS = 391.53) Sub 2-92Sub 2-92 m/z=391.14(C27H21NS=391.53)m / z = 391.14 (C 27 H 21 NS = 391.53)
Sub 2-93Sub 2-93 m/z=375.16(C27H21NO=375.47)m / z = 375.16 (C 27 H 21 NO = 375.47) Sub 2-94Sub 2-94 m/z=467.17(C33H25NS=467.63)m / z = 467.17 (C 33 H 25 NS = 467.63)
Sub 2-95Sub 2-95 m/z=409.18(C31H23N=409.53)m / z = 409.18 (C 31 H 23 N = 409.53) Sub 2-96Sub 2-96 m/z=407.17(C31H21N=407.52)m / z = 407.17 (C 31 H 21 N = 407.52)
Sub 2-97Sub 2-97 m/z=513.16(C37H23NS=513.66)m / z = 513.16 (C 37 H 23 NS = 513.66) Sub 2-98Sub 2-98 m/z=457.18(C35H23N=457.58)m / z = 457.18 (C 35 H 23 N = 457.58)
Sub 2-99Sub 2-99 m/z=225.06(C14H11NS=225.31)m / z = 225.06 (C 14 H 11 NS = 225.31)
III. Final Product 1 합성III. Final Product 1 Synthesis
Sub 1 (1 당량)을 둥근바닥플라스크에 Toluene으로 녹인 후에, Sub 2 (1 당량), Pd2(dba)3 (0.03 당량), (t-Bu)3P (1.00 당량), NaOt-Bu (2 당량)을 100℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 Final product 1을 얻었다.Sub 1 (1 equiv) was dissolved in toluene in a round bottom flask, then Sub 2 (1 equiv), Pd 2 (dba) 3 (0.03 equiv), ( t -Bu) 3 P (1.00 equiv), NaO t -Bu (2 equiv) were stirred at 100 ° C. After completion of the reaction, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain Final product 1.
본 발명 화합물 1-30, 1-32, 1-35, 1-37, 1-67, 1-80, 1-86, 1-94, 1-111. 1-119, 1-133은 본 출원인의 한국등록특허 제10-1668448호 (2016.10.17일자 등록공고), 한국등록특허 제10-1789998호 (2017.10.19일자 등록공고)에 개시된 합성방법으로 제조되었다.Compounds of the Invention 1-30, 1-32, 1-35, 1-37, 1-67, 1-80, 1-86, 1-94, 1-111. 1-119 and 1-133 are prepared by the synthesis method disclosed in the applicant's Korean Patent Registration No. 10-1668448 (Registration date of October 17, 2016), Korean Patent No. 10-1789998 (Registration notification date of October 19, 2017) It became.
1. 1-1 합성예1.1-1 Synthesis Example
Figure PCTKR2019003116-appb-I000203
Figure PCTKR2019003116-appb-I000203
상기 합성에서 얻어진 Sub 1-1 (5.97 g, 13.87 mmol)을 둥근바닥플라스크에 toluene (140ml)으로 녹인 후에, Sub 2-17 (3.74 g, 13.87 mmol), Pd2(dba)3 (0.38 g, 0.42 mmol), P(t-Bu)3 (0.28 g, 1.39 mmol), NaOt-Bu (2.67 g, 27.74 mmol)을 첨가하고 100℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 생성물 6.09 g (수율: 71%)를 얻었다.Sub 1-1 (5.97 g, 13.87 mmol) obtained in the synthesis was dissolved in toluene (140 ml) in a round bottom flask, and then Sub 2-17 (3.74 g, 13.87 mmol), Pd 2 (dba) 3 (0.38 g, 0.42 mmol), P ( t -Bu) 3 (0.28 g, 1.39 mmol), NaO t -Bu (2.67 g, 27.74 mmol) were added and stirred at 100 ° C. After the reaction was completed, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to give the product 6.09 g (yield: 71%).
2. 1-2 합성예2. 1-2 Synthesis Example
Figure PCTKR2019003116-appb-I000204
Figure PCTKR2019003116-appb-I000204
상기 합성에서 얻어진 Sub 1-1 (5.29 g, 12.29 mmol)에 Sub 2-37 (4.32 g, 12.29 mmol), Pd2(dba)3 (0.34 g, 0.37 mmol) P(t-Bu)3 (0.25 g, 1.23 mmol), NaOt-Bu (2.36 g, 24.58 mmol), toluene (125ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 6.81 g (수율: 79%)를 얻었다.Sub 1-1 (5.29 g, 12.29 mmol) obtained in the above synthesis to Sub 2-37 (4.32 g, 12.29 mmol), Pd 2 (dba) 3 (0.34 g, 0.37 mmol) P ( t -Bu) 3 (0.25 g, 1.23 mmol), NaO t -Bu (2.36 g, 24.58 mmol), toluene (125 ml) were added and the product 181 g was used to yield 6.81 g (yield: 79%).
3. 1-4 합성예3. 1-4 Synthesis Example
Figure PCTKR2019003116-appb-I000205
Figure PCTKR2019003116-appb-I000205
상기 합성에서 얻어진 Sub 1-3 (6.13 g, 13.20 mmol)에 Sub 2-41 (4.08 g, 13.20 mmol), Pd2(dba)3 (0.36 g, 0.40 mmol) P(t-Bu)3 (0.27 g, 1.32 mmol), NaOt-Bu (2.54 g, 26.40 mmol), toluene (130ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 7.32 g (수율: 80%)를 얻었다.To Sub 1-3 (6.13 g, 13.20 mmol) obtained in the above synthesis, Sub 2-41 (4.08 g, 13.20 mmol), Pd 2 (dba) 3 (0.36 g, 0.40 mmol) P ( t -Bu) 3 (0.27 g, 1.32 mmol), NaO t -Bu (2.54 g, 26.40 mmol) and toluene (130 ml) were added and the product 1-32 was synthesized to yield 7.32 g (yield: 80%).
4. 1-10 합성예4. 1-10 Synthesis Example
Figure PCTKR2019003116-appb-I000206
Figure PCTKR2019003116-appb-I000206
상기 합성에서 얻어진 Sub 1-5 (5.56 g, 12.75 mmol)에 Sub 2-43 (4.28 g, 12.75 mmol), Pd2(dba)3 (0.35 g, 0.38 mmol) P(t-Bu)3 (0.26 g, 1.28 mmol), NaOt-Bu (2.45 g, 25.51 mmol), toluene (130ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 8.06 g (수율: 86%)를 얻었다.To Sub 1-5 (5.56 g, 12.75 mmol) obtained in the above synthesis, Sub 2-43 (4.28 g, 12.75 mmol), Pd 2 (dba) 3 (0.35 g, 0.38 mmol) P ( t -Bu) 3 (0.26 g, 1.28 mmol), NaO t -Bu (2.45 g, 25.51 mmol) and toluene (130 ml) were added and the product 1-06 was used to yield 8.06 g (yield: 86%).
5. 1-24 합성예5. 1-24 Synthesis Example
Figure PCTKR2019003116-appb-I000207
Figure PCTKR2019003116-appb-I000207
상기 합성에서 얻어진 Sub 1-17 (6.18 g, 9.85 mmol)에 Sub 2-1 (1.67 g, 9.85 mmol), Pd2(dba)3 (0.27 g, 0.30 mmol) P(t-Bu)3 (0.20 g, 0.99 mmol), NaOt-Bu (1.89 g, 19.71 mmol), toluene (100ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 5.62 g (수율: 75%)를 얻었다.To Sub 1-17 (6.18 g, 9.85 mmol) obtained in the above synthesis, Sub 2-1 (1.67 g, 9.85 mmol), Pd 2 (dba) 3 (0.27 g, 0.30 mmol) P ( t -Bu) 3 (0.20 g, 0.99 mmol), NaO t -Bu (1.89 g, 19.71 mmol), toluene (100 ml) were added and 5.62 g (yield: 75%) of product was obtained using the 1-1 synthesis method.
6. 1-122 합성예6. 1-122 Synthesis Example
Figure PCTKR2019003116-appb-I000208
Figure PCTKR2019003116-appb-I000208
상기 합성에서 얻어진 Sub 1-82 (5.05 g, 11.73 mmol)에 Sub 2-49 (4.12 g, 11.73 mmol), Pd2(dba)3 (0.32 g, 0.35 mmol) P(t-Bu)3 (0.24 g, 1.17 mmol), NaOt-Bu (2.26 g, 23.47 mmol), toluene (120ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 7.65 g (수율: 93%)를 얻었다.Sub 1-82 (5.05 g, 11.73 mmol) obtained in the synthesis above, Sub 2-49 (4.12 g, 11.73 mmol), Pd 2 (dba) 3 (0.32 g, 0.35 mmol) P ( t- Bu) 3 (0.24 g, 1.17 mmol), NaO t -Bu (2.26 g, 23.47 mmol), toluene (120 ml) were added and the product 1 .65 g (yield: 93%) was obtained using the 1-1 synthesis method.
7. 1-125 합성예7. 1-125 Synthesis Example
Figure PCTKR2019003116-appb-I000209
Figure PCTKR2019003116-appb-I000209
상기 합성에서 얻어진 Sub 1-82 (5.20 g, 12.08 mmol)에 Sub 2-40 (3.13 g, 12.08 mmol), Pd2(dba)3 (0.33 g, 0.36 mmol) P(t-Bu)3 (0.24 g, 1.21 mmol), NaOt-Bu (2.32 g, 24.17 mmol), toluene (120ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 6.69 g (수율: 91%)를 얻었다.Sub 1-82 (5.20 g, 12.08 mmol) obtained in the above synthesis in Sub 2-40 (3.13 g, 12.08 mmol), Pd 2 (dba) 3 (0.33 g, 0.36 mmol) P ( t -Bu) 3 (0.24 g, 1.21 mmol), NaO t -Bu (2.32 g, 24.17 mmol), toluene (120 ml) were added and 6.69 g (yield: 91%) of the product was obtained using the 1-1 synthesis method.
8. 1-141 합성예8. 1-141 Synthesis Example
Figure PCTKR2019003116-appb-I000210
Figure PCTKR2019003116-appb-I000210
상기 합성에서 얻어진 Sub 1-102 (6.26 g, 13.15 mmol)에 Sub 2-1 (2.23 g, 13.15 mmol), Pd2(dba)3 (0.36 g, 0.39 mmol) P(t-Bu)3 (0.27 g, 1.32 mmol), NaOt-Bu (2.53 g, 26.30 mmol), toluene (130ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 6.57 g (수율: 82%)를 얻었다.To Sub 1-102 (6.26 g, 13.15 mmol) obtained in the above synthesis, Sub 2-1 (2.23 g, 13.15 mmol), Pd 2 (dba) 3 (0.36 g, 0.39 mmol) P ( t -Bu) 3 (0.27 g, 1.32 mmol), NaO t -Bu (2.53 g, 26.30 mmol), toluene (130 ml) were added and the product 1-57 synthesized to yield 6.57 g (yield: 82%).
9. 1-146 합성예9. Synthesis Example 1-146
Figure PCTKR2019003116-appb-I000211
Figure PCTKR2019003116-appb-I000211
상기 합성에서 얻어진 Sub 1-104 (6.12 g, 14.22 mmol)에 Sub 2-83 (5.84 g, 14.22 mmol), Pd2(dba)3 (0.39 g, 0.43 mmol) P(t-Bu)3 (0.29 g, 1.42 mmol), NaOt-Bu (2.73 g, 28.43 mmol), toluene (140ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 8.00 g (수율: 74%)를 얻었다.To Sub 1-104 (6.12 g, 14.22 mmol) obtained in the above synthesis, Sub 2-83 (5.84 g, 14.22 mmol), Pd 2 (dba) 3 (0.39 g, 0.43 mmol) P ( t -Bu) 3 (0.29 g, 1.42 mmol), NaO t -Bu (2.73 g, 28.43 mmol), toluene (140 ml) were added and the product 18.00 g (yield: 74%) was obtained using the 1-1 synthesis method.
10. 1-158 합성예10. Synthesis Example 1-158
Figure PCTKR2019003116-appb-I000212
Figure PCTKR2019003116-appb-I000212
상기 합성에서 얻어진 Sub 1-112 (5.75 g, 14.90 mmol)에 Sub 2-29 (4.10 g, 14.90 mmol), Pd2(dba)3 (0.41 g, 0.45 mmol) P(t-Bu)3 (0.30 g, 1.49 mmol), NaOt-Bu (2.86 g, 29.80 mmol), toluene (150ml)을 첨가하고 상기 1-1 합성법을 사용하여 생성물 6.24 g (수율: 67%)를 얻었다.Sub 1-112 (5.75 g, 14.90 mmol) obtained in the above synthesis in Sub 2-29 (4.10 g, 14.90 mmol), Pd 2 (dba) 3 (0.41 g, 0.45 mmol) P ( t- Bu) 3 (0.30 g, 1.49 mmol), NaO t -Bu (2.86 g, 29.80 mmol), toluene (150 ml) were added and the product 1-24 synthesis (yield: 67%) was obtained using the 1-1 synthesis method.
한편, 상기와 같은 합성예에 따라 제조된 본 발명의 화합물 1-1 내지 1-175의 FD-MS 값은 하기 표 3과 같다.On the other hand, FD-MS values of the compounds 1-1 to 1-175 of the present invention prepared according to the synthesis examples as described above are shown in Table 3.
화합물compound FD-MSFD-MS 화합물compound FD-MSFD-MS
1-11-1 m/z=618.21(C44H30N2S=618.80)m / z = 618.21 (C 44 H 30 N 2 S = 618.80) 1-21-2 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-31-3 m/z=708.22(C50H32N2OS=708.88)m / z = 708.22 (C 50 H 32 N 2 OS = 708.88) 1-41-4 m/z=692.25(C50H32N2O2=692.82)m / z = 692.25 (C 50 H 32 N 2 O 2 = 692.82)
1-51-5 m/z=742.30(C55H38N2O=742.92)m / z = 742.30 (C 55 H 38 N 2 O = 742.92) 1-61-6 m/z=654.27(C48H34N2O=654.81)m / z = 654.27 (C 48 H 34 N 2 O = 654.81)
1-71-7 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92) 1-81-8 m/z=760.25(C54H36N2OS=760.96)m / z = 760.25 (C 54 H 36 N 2 OS = 760.96)
1-91-9 m/z=730.16(C48H30N2S3=730.96)m / z = 730.16 (C 48 H 30 N 2 S 3 = 730.96) 1-101-10 m/z=734.24(C52H34N2OS=734.92)m / z = 734.24 (C 52 H 34 N 2 OS = 734.92)
1-111-11 m/z=872.32(C64H44N2S=873.13)m / z = 872.32 (C 64 H 44 N 2 S = 873.13) 1-121-12 m/z=718.26(C52H34N2O2=718.86)m / z = 718.26 (C 52 H 34 N 2 O 2 = 718.86)
1-131-13 m/z=568.20(C40H28N2S=568.74)m / z = 568.20 (C 40 H 28 N 2 S = 568.74) 1-141-14 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82)
1-151-15 m/z=658.21(C46H30N2OS=658.82)m / z = 658.21 (C 46 H 30 N 2 OS = 658.82) 1-161-16 m/z=730.30(C54H38N2O=730.91)m / z = 730.30 (C 54 H 38 N 2 O = 730.91)
1-171-17 m/z=698.20(C48H30N2O2S=698.84)m / z = 698.20 (C 48 H 30 N 2 O 2 S = 698.84) 1-181-18 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82)
1-191-19 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92) 1-201-20 m/z=708.22(C50H32N2OS=708.88)m / z = 708.22 (C 50 H 32 N 2 OS = 708.88)
1-211-21 m/z=750.22(C52H34N2S2=750.98)m / z = 750.22 (C 52 H 34 N 2 S 2 = 750.98) 1-221-22 m/z=776.23(C54H36N2S2=777.02)m / z = 776.23 (C 54 H 36 N 2 S 2 = 777.02)
1-231-23 m/z=867.24(C59H37N3OS2=868.09)m / z = 867.24 (C 59 H 37 N 3 OS 2 = 868.09) 1-241-24 m/z=759.27(C54H37N3S=759.97)m / z = 759.27 (C 54 H 37 N 3 S = 759.97)
1-251-25 m/z=608.19(C42H28N2OS=608.76)m / z = 608.19 (C 42 H 28 N 2 OS = 608.76) 1-261-26 m/z=608.19(C42H28N2OS=608.76)m / z = 608.19 (C 42 H 28 N 2 OS = 608.76)
1-271-27 m/z=692.25(C50H32N2O2=692.82)m / z = 692.25 (C 50 H 32 N 2 O 2 = 692.82) 1-281-28 m/z=894.20(C60H34N2O3S2=895.06)m / z = 894.20 (C 60 H 34 N 2 O 3 S 2 = 895.06)
1-291-29 m/z=618.21(C44H30N2S=618.80)m / z = 618.21 (C 44 H 30 N 2 S = 618.80) 1-301-30 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-311-31 m/z=780.17(C52H32N2S3=781.02)m / z = 780.17 (C 52 H 32 N 2 S 3 = 781.02) 1-321-32 m/z=734.24(C52H34N2OS=734.92)m / z = 734.24 (C 52 H 34 N 2 OS = 734.92)
1-331-33 m/z=834.31(C61H42N2S=835.08)m / z = 834.31 (C 61 H 42 N 2 S = 835.08) 1-341-34 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-351-35 m/z=724.25(C51H36N2OS=724.92)m / z = 724.25 (C 51 H 36 N 2 OS = 724.92) 1-361-36 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82)
1-371-37 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92) 1-381-38 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-391-39 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-401-40 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-411-41 m/z=608.19(C42H28N2OS=608.76)m / z = 608.19 (C 42 H 28 N 2 OS = 608.76) 1-421-42 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86)
1-431-43 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86) 1-441-44 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82)
1-451-45 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-461-46 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-471-47 m/z=826.25(C58H38N2S2=827.08)m / z = 826.25 (C 58 H 38 N 2 S 2 = 827.08) 1-481-48 m/z=608.19(C42H28N2OS=608.76)m / z = 608.19 (C 42 H 28 N 2 OS = 608.76)
1-491-49 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82) 1-501-50 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86)
1-511-51 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92) 1-521-52 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86)
1-531-53 m/z=730.16(C48H30N2S3=730.96)m / z = 730.16 (C 48 H 30 N 2 S 3 = 730.96) 1-541-54 m/z=826.25(C58H38N2S2=827.08)m / z = 826.25 (C 58 H 38 N 2 S 2 = 827.08)
1-551-55 m/z=806.19(C54H34N2S3=807.06)m / z = 806.19 (C 54 H 34 N 2 S 3 = 807.06) 1-561-56 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-571-57 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-581-58 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-591-59 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-601-60 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-611-61 m/z=638.19(C43H30N2S2=638.85)m / z = 638.19 (C 43 H 30 N 2 S 2 = 638.85) 1-621-62 m/z=638.19(C43H30N2S2=638.85)m / z = 638.19 (C 43 H 30 N 2 S 2 = 638.85)
1-631-63 m/z=638.19(C43H30N2S2=638.85)m / z = 638.19 (C 43 H 30 N 2 S 2 = 638.85) 1-641-64 m/z=622.21(C43H30N2OS=622.79)m / z = 622.21 (C 43 H 30 N 2 OS = 622.79)
1-651-65 m/z=688.20(C47H32N2S2=688.91)m / z = 688.20 (C 47 H 32 N 2 S 2 = 688.91) 1-661-66 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-671-67 m/z=789.23(C54H35N3S2=790.02)m / z = 789.23 (C 54 H 35 N 3 S 2 = 790.02) 1-681-68 m/z=638.19(C43H30N2S2=638.85)m / z = 638.19 (C 43 H 30 N 2 S 2 = 638.85)
1-691-69 m/z=638.19(C43H30N2S2=638.85)m / z = 638.19 (C 43 H 30 N 2 S 2 = 638.85) 1-701-70 m/z=642.16(C42H27FN2S2=642.81)m / z = 642.16 (C 42 H 27 FN 2 S 2 = 642.81)
1-711-71 m/z=638.19(C43H30N2S2=638.85)m / z = 638.19 (C 43 H 30 N 2 S 2 = 638.85) 1-721-72 m/z=714.22(C49H34N2S2=714.95)m / z = 714.22 (C 49 H 34 N 2 S 2 = 714.95)
1-731-73 m/z=716.20(C48H32N2OS2=716.92)m / z = 716.20 (C 48 H 32 N 2 OS 2 = 716.92) 1-741-74 m/z=670.24(C48H34N2S=670.87)m / z = 670.24 (C 48 H 34 N 2 S = 670.87)
1-751-75 m/z=634.24(C45H34N2S=634.84)m / z = 634.24 (C 45 H 34 N 2 S = 634.84) 1-761-76 m/z=759.27(C54H37N3S=759.97)m / z = 759.27 (C 54 H 37 N 3 S = 759.97)
1-771-77 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-781-78 m/z=708.22(C50H32N2OS=708.88)m / z = 708.22 (C 50 H 32 N 2 OS = 708.88)
1-791-79 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-801-80 m/z=748.22(C52H32N2O2S=748.90)m / z = 748.22 (C 52 H 32 N 2 O 2 S = 748.90)
1-811-81 m/z=821.29(C57H35D5N2S2=822.11)m / z = 821.29 (C 57 H 35 D 5 N 2 S 2 = 822.11) 1-821-82 m/z=730.16(C48H30N2S3=730.96)m / z = 730.16 (C 48 H 30 N 2 S 3 = 730.96)
1-831-83 m/z=730.16(C48H30N2S3=730.96)m / z = 730.16 (C 48 H 30 N 2 S 3 = 730.96) 1-841-84 m/z=714.18(C48H30N2OS2=714.90)m / z = 714.18 (C 48 H 30 N 2 OS 2 = 714.90)
1-851-85 m/z=882.22(C60H38N2S3=883.16)m / z = 882.22 (C 60 H 38 N 2 S 3 = 883.16) 1-861-86 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82)
1-871-87 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92) 1-881-88 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-891-89 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-901-90 m/z=708.22(C50H32N2OS=708.88)m / z = 708.22 (C 50 H 32 N 2 OS = 708.88)
1-911-91 m/z=759.27(C54H37N3S=759.97)m / z = 759.27 (C 54 H 37 N 3 S = 759.97) 1-921-92 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-931-93 m/z=688.20(C47H32N2S2=688.91)m / z = 688.20 (C 47 H 32 N 2 S 2 = 688.91) 1-941-94 m/z=760.25(C54H36N2OS=760.96)m / z = 760.25 (C 54 H 36 N 2 OS = 760.96)
1-951-95 m/z=759.27(C54H37N3S=759.97)m / z = 759.27 (C 54 H 37 N 3 S = 759.97) 1-961-96 m/z=608.19(C42H28N2OS=608.76)m / z = 608.19 (C 42 H 28 N 2 OS = 608.76)
1-971-97 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86) 1-981-98 m/z=622.21(C43H30N2OS=622.79)m / z = 622.21 (C 43 H 30 N 2 OS = 622.79)
1-991-99 m/z=760.25(C54H36N2OS=760.96)m / z = 760.25 (C 54 H 36 N 2 OS = 760.96) 1-1001-100 m/z=658.21(C46H30N2OS=658.82)m / z = 658.21 (C 46 H 30 N 2 OS = 658.82)
1-1011-101 m/z=658.21(C46H30N2OS=658.82)m / z = 658.21 (C 46 H 30 N 2 OS = 658.82) 1-1021-102 m/z=692.25(C50H32N2O2=692.82)m / z = 692.25 (C 50 H 32 N 2 O 2 = 692.82)
1-1031-103 m/z=628.25(C46H32N2O=628.78)m / z = 628.25 (C 46 H 32 N 2 O = 628.78) 1-1041-104 m/z=693.28(C50H35N3O=693.85)m / z = 693.28 (C 50 H 35 N 3 O = 693.85)
1-1051-105 m/z=723.23(C50H33N3OS=723.89)m / z = 723.23 (C 50 H 33 N 3 OS = 723.89) 1-1061-106 m/z=749.29(C54H31D5N2S=749.99)m / z = 749.29 (C 54 H 31 D 5 N 2 S = 749.99)
1-1071-107 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92) 1-1081-108 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-1091-109 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86) 1-1101-110 m/z=724.25(C51H36N2OS=724.92)m / z = 724.25 (C 51 H 36 N 2 OS = 724.92)
1-1111-111 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-1121-112 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-1131-113 m/z=780.17(C52H32N2S3=781.02)m / z = 780.17 (C 52 H 32 N 2 S 3 = 781.02) 1-1141-114 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86)
1-1151-115 m/z=684.22(C48H32N2OS=684.86)m / z = 684.22 (C 48 H 32 N 2 OS = 684.86) 1-1161-116 m/z=698.20(C48H30N2O2S=698.84)m / z = 698.20 (C 48 H 30 N 2 O 2 S = 698.84)
1-1171-117 m/z=618.26(C42H18D10N2OS=618.82)m / z = 618.26 (C 42 H 18 D 10 N 2 OS = 618.82) 1-1181-118 m/z=757.27(C54H35N3O2=757.89)m / z = 757.27 (C 54 H 35 N 3 O 2 = 757.89)
1-1191-119 m/z=668.25(C48H32N2O2=668.80)m / z = 668.25 (C 48 H 32 N 2 O 2 = 668.80) 1-1201-120 m/z=720.26(C52H36N2S=720.93)m / z = 720.26 (C 52 H 36 N 2 S = 720.93)
1-1211-121 m/z=670.24(C48H34N2S=670.87)m / z = 670.24 (C 48 H 34 N 2 S = 670.87) 1-1221-122 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-1231-123 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-1241-124 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-1251-125 m/z=608.19(C42H28N2OS=608.76)m / z = 608.19 (C 42 H 28 N 2 OS = 608.76) 1-1261-126 m/z=860.25(C58H40N2O2S2=861.09)m / z = 860.25 (C 58 H 40 N 2 O 2 S 2 = 861.09)
1-1271-127 m/z=798.27(C57H38N2OS=799.00)m / z = 798.27 (C 57 H 38 N 2 OS = 799.00) 1-1281-128 m/z=734.33(C54H42N2O=734.94)m / z = 734.33 (C 54 H 42 N 2 O = 734.94)
1-1291-129 m/z=742.26(C54H34N2O2=742.88)m / z = 742.26 (C 54 H 34 N 2 O 2 = 742.88) 1-1301-130 m/z=945.37(C70H47N3O=946.17)m / z = 945.37 (C 70 H 47 N 3 O = 946.17)
1-1311-131 m/z=670.24(C48H34N2S=670.87)m / z = 670.24 (C 48 H 34 N 2 S = 670.87) 1-1321-132 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82)
1-1331-133 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92) 1-1341-134 m/z=724.20(C50H32N2S2=724.94)m / z = 724.20 (C 50 H 32 N 2 S 2 = 724.94)
1-1351-135 m/z=816.26(C57H40N2S2=817.08)m / z = 816.26 (C 57 H 40 N 2 S 2 = 817.08) 1-1361-136 m/z=760.25(C54H36N2OS=760.96)m / z = 760.25 (C 54 H 36 N 2 OS = 760.96)
1-1371-137 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-1381-138 m/z=730.16(C48H30N2S3=730.96)m / z = 730.16 (C 48 H 30 N 2 S 3 = 730.96)
1-1391-139 m/z=881.29(C61H43N3S2=882.16)m / z = 881.29 (C 61 H 43 N 3 S 2 = 882.16) 1-1401-140 m/z=704.28(C52H36N2O=704.87)m / z = 704.28 (C 52 H 36 N 2 O = 704.87)
1-1411-141 m/z=608.19(C42H28N2OS=608.76)m / z = 608.19 (C 42 H 28 N 2 OS = 608.76) 1-1421-142 m/z=682.23(C48H30N2O3=682.78)m / z = 682.23 (C 48 H 30 N 2 O 3 = 682.78)
1-1431-143 m/z=670.24(C48H34N2S=670.87)m / z = 670.24 (C 48 H 34 N 2 S = 670.87) 1-1441-144 m/z=776.23(C54H36N2S2=777.02)m / z = 776.23 (C 54 H 36 N 2 S 2 = 777.02)
1-1451-145 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-1461-146 m/z=759.27(C54H37N3S=759.97)m / z = 759.27 (C 54 H 37 N 3 S = 759.97)
1-1471-147 m/z=758.24(C54H34N2OS=758.94)m / z = 758.24 (C 54 H 34 N 2 OS = 758.94) 1-1481-148 m/z=806.28(C59H38N2S=807.03)m / z = 806.28 (C 59 H 38 N 2 S = 807.03)
1-1491-149 m/z=823.30(C59H38FN3O=823.97)m / z = 823.30 (C 59 H 38 FN 3 O = 823.97) 1-1501-150 m/z=743.29(C54H37N3O=743.91)m / z = 743.29 (C 54 H 37 N 3 O = 743.91)
1-1511-151 m/z=998.33(C73H46N2OS=999.24)m / z = 998.33 (C 73 H 46 N 2 OS = 999.24) 1-1521-152 m/z=700.20(C48H32N2S2=700.92)m / z = 700.20 (C 48 H 32 N 2 S 2 = 700.92)
1-1531-153 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-1541-154 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-1551-155 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88) 1-1561-156 m/z=674.19(C46H30N2S2=674.88)m / z = 674.19 (C 46 H 30 N 2 S 2 = 674.88)
1-1571-157 m/z=762.29(C50H46N2SSi2=763.16)m / z = 762.29 (C 50 H 46 N 2 SSi 2 = 763.16) 1-1581-158 m/z=624.17(C42H28N2S2=624.82)m / z = 624.17 (C 42 H 28 N 2 S 2 = 624.82)
1-1591-159 m/z=784.25(C56H36N2OS=784.98)m / z = 784.25 (C 56 H 36 N 2 OS = 784.98) 1-1601-160 m/z=810.27(C58H38N2OS=811.02)m / z = 810.27 (C 58 H 38 N 2 OS = 811.02)
1-1611-161 m/z=860.29(C62H40N2OS=861.08)m / z = 860.29 (C 62 H 40 N 2 OS = 861.08) 1-1621-162 m/z=708.22(C50H32N2OS=708.88)m / z = 708.22 (C 50 H 32 N 2 OS = 708.88)
1-1631-163 m/z=742.26(C54H34N2O2=742.88)m / z = 742.26 (C 54 H 34 N 2 O 2 = 742.88) 1-1641-164 m/z=828.26(C58H40N2S2=829.09)m / z = 828.26 (C 58 H 40 N 2 S 2 = 829.09)
1-1651-165 m/z=708.22(C50H32N2OS=708.88)m / z = 708.22 (C 50 H 32 N 2 OS = 708.88) 1-1661-166 m/z=724.20(C50H32N2S2=724.94)m / z = 724.20 (C 50 H 32 N 2 S 2 = 724.94)
1-1671-167 m/z=834.27(C60H38N2OS=835.04)m / z = 834.27 (C 60 H 38 N 2 OS = 835.04) 1-1681-168 m/z=768.28(C56H36N2O2=768.92)m / z = 768.28 (C 56 H 36 N 2 O 2 = 768.92)
1-1691-169 m/z=830.19(C56H34N2S3=831.08)m / z = 830.19 (C 56 H 34 N 2 S 3 = 831.08) 1-1701-170 m/z=810.27(C58H38N2OS=811.02)m / z = 810.27 (C 58 H 38 N 2 OS = 811.02)
1-1711-171 m/z=810.31(C59H42N2S=811.06)m / z = 810.31 (C 59 H 42 N 2 S = 811.06) 1-1721-172 m/z=692.25(C50H32N2O2=692.82)m / z = 692.25 (C 50 H 32 N 2 O 2 = 692.82)
1-1731-173 m/z=758.24(C54H34N2OS=758.94)m / z = 758.24 (C 54 H 34 N 2 OS = 758.94) 1-1741-174 m/z=783.27(C56H37N3S=783.99)m / z = 783.27 (C 56 H 37 N 3 S = 783.99)
1-1751-175 m/z=808.25(C58H36N2OS=809.00)m / z = 808.25 (C 58 H 36 N 2 OS = 809.00)
[합성예 2]Synthesis Example 2
본 발명에 따른 화학식 2로 표시되는 화합물(final product)은 하기 반응식 4와 같이 Sub 3과 Sub 4가 반응하여 제조될 수 있으며 이에 한정되는 것은 아니다.Compound represented by the formula (2) according to the invention can be prepared by the reaction of Sub 3 and Sub 4, as shown in Scheme 4, but is not limited thereto.
<반응식 4><Scheme 4>
Figure PCTKR2019003116-appb-I000213
Figure PCTKR2019003116-appb-I000213
1'-1의 합성예시Synthesis Example of 1'-1
Figure PCTKR2019003116-appb-I000214
Figure PCTKR2019003116-appb-I000214
Sub 1(1) (34.7g, 80 mmol)과 Sub 2(1) (30.9g, 80 mmol), K2CO3 (19.3 g, 140 mmol), Pd(PPh3)4 (2.8 g, 2.4 mmol)를 둥근바닥플라스크에 넣은 후 THF와 물을 넣어 녹인 후 80℃에서 12시간 동안 환류시켰다. 반응이 종료되면 반응물의 온도를 상온으로 식히고, CH2Cl2로 추출하고 물로 닦아주었다. 유기층을 MgSO4로 건조하고 농축한 후 생성된 유기물을 silicagel column을 이용하여 분리하여 원하는 생성물을 (37.4g, 71%)를 얻었다.Sub 1 (1) (34.7g, 80 mmol) and Sub 2 (1) (30.9g, 80 mmol), K 2 CO 3 (19.3 g, 140 mmol), Pd (PPh 3 ) 4 (2.8 g, 2.4 mmol ) Was put into a round bottom flask, THF and water were dissolved, and refluxed at 80 ° C. for 12 hours. After the reaction was completed, the temperature of the reactant was cooled to room temperature, extracted with CH 2 Cl 2 , and washed with water. The organic layer was dried over MgSO 4 , concentrated and the resulting organics were separated using a silicagel column to give the desired product (37.4g, 71%).
1'-6의 합성예시Synthesis Example of 1'-6
Figure PCTKR2019003116-appb-I000215
Figure PCTKR2019003116-appb-I000215
Sub 1(6) (44.6g, 80 mmol)과 Sub 2(2) (30.9g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (43.2g, 69%)를 얻었다.Sub 1 (6) (44.6g, 80 mmol) and Sub 2 (2) (30.9g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (43.2g, 69%).
1'-12의 합성예시Synthesis Example of 1'-12
Figure PCTKR2019003116-appb-I000216
Figure PCTKR2019003116-appb-I000216
Sub 1(12) (42.7g, 80 mmol)과 Sub 2(33) (34.9g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (42.7g, 66%)를 얻었다.Sub 1 (12) (42.7g, 80mmol) and Sub 2 (33) (34.9g, 80mmol) were obtained using the synthesis method of 1'-1 to give (42.7g, 66%).
1'-33의 합성예시Synthesis Example of 1'-33
Figure PCTKR2019003116-appb-I000217
Figure PCTKR2019003116-appb-I000217
Sub 1(27) (40.8g, 80 mmol)과 Sub 2(9) (43.1g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (51.0g, 72%)를 얻었다.Sub 1 (27) (40.8g, 80 mmol) and Sub 2 (9) (43.1g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (51.0g, 72%).
1'-44의 합성예시Synthesis Example of 1'-44
Figure PCTKR2019003116-appb-I000218
Figure PCTKR2019003116-appb-I000218
Sub 1(28) (40.8g, 80 mmol)과 Sub 2(10) (37.0g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (45.4g, 70%)를 얻었다.Sub 1 (28) (40.8g, 80 mmol) and Sub 2 (10) (37.0g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (45.4g, 70%).
1'-53의 합성예시Synthesis Example of 1'-53
Figure PCTKR2019003116-appb-I000219
Figure PCTKR2019003116-appb-I000219
Sub 1(34) (44.0g, 80 mmol)과 Sub 2(29) (29.6g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (41.2g, 68%)를 얻었다.Sub 1 (34) (44.0g, 80 mmol) and Sub 2 (29) (29.6g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (41.2g, 68%).
1'-64의 합성예시Synthesis Example of 1'-64
Figure PCTKR2019003116-appb-I000220
Figure PCTKR2019003116-appb-I000220
Sub 1(37) (48.2g, 80 mmol)과 Sub 2(34) (34.9g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (45.6g, 71%)를 얻었다.Sub 1 (37) (48.2g, 80 mmol) and Sub 2 (34) (34.9g, 80 mmol) were obtained using the synthesis method of 1'-1 to give the product (45.6g, 71%).
1'-75의 합성예시Synthesis Example of 1'-75
Figure PCTKR2019003116-appb-I000221
Figure PCTKR2019003116-appb-I000221
Sub 1(25) (34..7g, 80 mmol)과 Sub 2(35) (41.8g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (46.4g, 73%)를 얻었다.Sub 1 (25) (34..7g, 80 mmol) and Sub 2 (35) (41.8g, 80 mmol) were obtained using the synthesis method of 1'-1 to give the product (46.4g, 73%). .
2-1의 합성예시Synthesis Example of 2-1
Figure PCTKR2019003116-appb-I000222
Figure PCTKR2019003116-appb-I000222
Sub 1(1) (34.7g, 80 mmol)과 Sub 2(27) (37.0g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (42.3g, 72%)를 얻었다.Sub 1 (1) (34.7g, 80mmol) and Sub 2 (27) (37.0g, 80mmol) were obtained using the synthesis method of 1'-1 to obtain the product (42.3g, 72%).
2-22의 합성예시Synthesis Example of 2-22
Figure PCTKR2019003116-appb-I000223
Figure PCTKR2019003116-appb-I000223
Sub 1(38) (50.7g, 80 mmol)과 Sub 2(24) (37.0g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (51.6g, 69%)를 얻었다.Sub 1 (38) (50.7g, 80 mmol) and Sub 2 (24) (37.0g, 80 mmol) were obtained using the synthesis method of 1'-1 to give the product (51.6g, 69%).
2-33의 합성예시Synthesis Example of 2-33
Figure PCTKR2019003116-appb-I000224
Figure PCTKR2019003116-appb-I000224
Sub 1(27) (40.8g, 80 mmol)과 Sub 2(36) (49.2g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (53.9g, 70%)를 얻었다.Sub 1 (27) (40.8g, 80 mmol) and Sub 2 (36) (49.2g, 80 mmol) were obtained using the synthesis method of 1'-1 to obtain the product (53.9g, 70%).
2-40의 합성예시Synthesis Example of 2-40
Figure PCTKR2019003116-appb-I000225
Figure PCTKR2019003116-appb-I000225
Sub 1(25) (34.7g, 80 mmol)과 Sub 2(37) (43.1g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (44.7g, 69%)를 얻었다.Sub 1 (25) (34.7g, 80mmol) and Sub 2 (37) (43.1g, 80mmol) were obtained using the synthesis method of 1'-1 to obtain the product (44.7g, 69%).
2-51의 합성예시Synthesis Example of 2-51
Figure PCTKR2019003116-appb-I000226
Figure PCTKR2019003116-appb-I000226
Sub 1(33) (36.0g, 80 mmol)과 Sub 2(38) (35.7g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (41.1g, 70%)를 얻었다.Sub 1 (33) (36.0 g, 80 mmol) and Sub 2 (38) (35.7 g, 80 mmol) were obtained using the synthesis method of 1'-1 to give the product (41.1 g, 70%).
2-55의 합성예시Synthesis Example of 2-55
Figure PCTKR2019003116-appb-I000227
Figure PCTKR2019003116-appb-I000227
Sub 1(39) (42.1g, 80 mmol)과 Sub 2(23) (37.0g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (44.9g, 68%)를 얻었다.Sub 1 (39) (42.1g, 80 mmol) and Sub 2 (23) (37.0g, 80 mmol) were obtained using the synthesis method of 1'-1 to give the product (44.9g, 68%).
2-58의 합성예시Synthesis Example of 2-58
Figure PCTKR2019003116-appb-I000228
Figure PCTKR2019003116-appb-I000228
Sub 1(25) (34.7g, 80 mmol)과 Sub 2(39) (47.9g, 80 mmol)을 상기 1-1의 합성방법을 이용하여 생성물을 (45.9g, 66%)를 얻었다.Sub 1 (25) (34.7g, 80 mmol) and Sub 2 (39) (47.9g, 80 mmol) were obtained using the synthesis method of 1-1 to obtain the product (45.9g, 66%).
3-10의 합성예시Synthesis Example of 3-10
Figure PCTKR2019003116-appb-I000229
Figure PCTKR2019003116-appb-I000229
Sub 1(37) (28.6g, 80 mmol)과 Sub 2(10) (37.0g, 80 mmol)을 상기 1'-1의 합성방법을 이용하여 생성물을 (38.9g, 74%)를 얻었다.Sub 1 (37) (28.6g, 80mmol) and Sub 2 (10) (37.0g, 80mmol) were obtained using the synthesis method of 1'-1 to obtain the product (38.9g, 74%).
P-41의 합성 예시 Synthesis Example of P-41
Figure PCTKR2019003116-appb-I000230
Figure PCTKR2019003116-appb-I000230
둥근 바닥 플라스크에 Core 2 (5 g, 14 mmol), Sub 1 (4.6 g, 15.2 mmol), Pd(PPh3)4 (0.5 g, 0.4 mmol), K2CO3 (5.7 g, 41.3 mmol), THF, 물을 첨가하고 90℃에서 반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 P-41 4.6 g (수율: 57%)을 얻었다.In a round bottom flask, Core 2 (5 g, 14 mmol), Sub 1 (4.6 g, 15.2 mmol), Pd (PPh 3 ) 4 (0.5 g, 0.4 mmol), K 2 CO 3 (5.7 g, 41.3 mmol), THF, water was added and inversed at 90 ° C. After completion of the reaction, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain 4.6 g (yield: 57%) of P-41.
P-91의 합성 예시 Synthesis Example of P-91
Figure PCTKR2019003116-appb-I000231
Figure PCTKR2019003116-appb-I000231
둥근 바닥 플라스크에 Core 1 (5 g, 14 mmol), Sub 9 (5.8 g, 15.4 mmol), Pd(PPh3)4 (0.5 g, 0.4 mmol), K2CO3 (5.8 g, 41.9 mmol), THF, 물을 첨가하고 90℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 P-91 4.7 g (수율: 51%)을 얻었다.In a round bottom flask, Core 1 (5 g, 14 mmol), Sub 9 (5.8 g, 15.4 mmol), Pd (PPh 3 ) 4 (0.5 g, 0.4 mmol), K 2 CO 3 (5.8 g, 41.9 mmol), THF, water were added and stirred at 90 ° C. After completion of the reaction, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain 4.7 g (yield: 51%) of P-91.
P-106의 합성 예시 Synthesis Example of P-106
Figure PCTKR2019003116-appb-I000232
Figure PCTKR2019003116-appb-I000232
둥근 바닥 플라스크에 Core 1 (5 g, 14 mmol), Sub 16 (5.8 g, 15.4 mmol), Pd(PPh3)4 (0.5 g, 0.4 mmol), K2CO3 (5.8 g, 41.9 mmol), THF, 물을 첨가하고 90℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 P-106 5.8 g (수율: 63%)을 얻었다.In a round bottom flask, Core 1 (5 g, 14 mmol), Sub 16 (5.8 g, 15.4 mmol), Pd (PPh 3 ) 4 (0.5 g, 0.4 mmol), K 2 CO 3 (5.8 g, 41.9 mmol), THF, water were added and stirred at 90 ° C. After completion of the reaction, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain 5.8 g (yield: 63%) of P-106.
P-146의 합성 예시 Synthesis Example of P-146
Figure PCTKR2019003116-appb-I000233
Figure PCTKR2019003116-appb-I000233
둥근 바닥 플라스크에 Core 1 (5 g, 14 mmol), Sub 2 (5.8 g, 15.4 mmol), Pd(PPh3)4 (0.5 g, 0.4 mmol), K2CO3 (5.8 g, 41.9 mmol), THF, 물을 첨가하고 90℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 P-146 4.7 g (수율: 51%)을 얻었다.In a round bottom flask, Core 1 (5 g, 14 mmol), Sub 2 (5.8 g, 15.4 mmol), Pd (PPh 3 ) 4 (0.5 g, 0.4 mmol), K 2 CO 3 (5.8 g, 41.9 mmol), THF, water were added and stirred at 90 ° C. After completion of the reaction, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain 4.7 g (yield: 51%) of P-146.
P-4의 합성 예시 Synthesis Example of P-4
Figure PCTKR2019003116-appb-I000234
Figure PCTKR2019003116-appb-I000234
둥근 바닥 플라스크에 Core 1 (5 g, 14 mmol), Sub 6 (5.9 g, 15.4 mmol), Pd(PPh3)4 (0.5 g, 0.4 mmol), K2CO3 (5.8 g, 41.9 mmol), THF, 물을 첨가하고 90℃에서 교반하였다. 반응이 완료되면 CH2Cl2와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 P-4 6.1 g (수율: 66%)을 얻었다.In a round bottom flask, Core 1 (5 g, 14 mmol), Sub 6 (5.9 g, 15.4 mmol), Pd (PPh 3 ) 4 (0.5 g, 0.4 mmol), K 2 CO 3 (5.8 g, 41.9 mmol), THF, water were added and stirred at 90 ° C. After the reaction was completed, the mixture was extracted with CH 2 Cl 2 and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain 6.1 g (yield: 66%) of P-4.
4-1의 합성 예시 Synthesis Example of 4-1
Figure PCTKR2019003116-appb-I000235
Figure PCTKR2019003116-appb-I000235
Sub 1-1' (50 g, 98.04 mmol)을 둥근바닥플라스크에 넣고 THF(359mL)로 녹인 후, Sub 2-1'(52.51 g, 117.65 mmol), Pd(PPh3)4 (4.53 g, 3.92 mmol), K2CO3 (40.65 g, 294.12 mmol) 및 물 (180 mL)을 첨가하고 교반환류시킨다. 반응이 완료되면, ether와 물로 추출한 후, 유기층을 MgSO4로 건조하고 농축시킨다. 이후, 농축물을 실리카겔 칼럼에 통과시킨 후 재결정하여 생성물 64.61 g을 얻었다. (수율: 83%)Sub 1-1 '(50 g, 98.04 mmol) was added to a round bottom flask and dissolved in THF (359 mL), then Sub 2-1' (52.51 g, 117.65 mmol) and Pd (PPh3) 4 (4.53 g, 3.92 mmol ), K 2 CO 3 (40.65 g, 294.12 mmol) and water (180 mL) are added and stirred to reflux. After the reaction was completed, the mixture was extracted with ether and water, and then the organic layer was dried over MgSO 4 and concentrated. The concentrate was then passed through a silica gel column and recrystallized to give 64.61 g of product. (Yield 83%)
5-3의 합성 예시 Synthesis Example of 5-3
Figure PCTKR2019003116-appb-I000236
Figure PCTKR2019003116-appb-I000236
Sub 1-1”(60 g, 133.35 mmol)을 둥근바닥플라스크에 넣고 THF(489 mL)에 녹인 후에, Sub 2-3”(58.28 g, 160.01 mmol), Pd(PPh3)4 (6.16 g, 5.33 mmol), K2CO3 (55.29 g, 400.04 mmol), 물 (244 mL)을 첨가한 후, 교반 환류시킨다. 반응이 완료되면 ether와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 생성물 73.40 g을 얻었다. (수율: 75%)Sub 1-1 ”(60 g, 133.35 mmol) was added to a round bottom flask and dissolved in THF (489 mL), then Sub 2-3” (58.28 g, 160.01 mmol), Pd (PPh 3 ) 4 (6.16 g, 5.33 mmol), K 2 CO 3 (55.29 g, 400.04 mmol), water (244 mL) are added and then stirred to reflux. After the reaction was completed, the mixture was extracted with ether and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was silicagel column and recrystallized to obtain 73.40 g of the product. (Yield 75%)
7-8의 합성 예시 Synthesis Example of 7-8
Figure PCTKR2019003116-appb-I000237
Figure PCTKR2019003116-appb-I000237
2-chloro-4-phenyl-6-(7-phenyldibenzo[b,d]furan-2-yl)-1,3,5-triazine (58 g, 133.35 mmol)을 둥근바닥플라스크에 넣고 THF(489 mL)에 녹인 후에, [1,1':3',1'':3'',1'''-quaterphenyl]-3-ylboronic acid (56 g, 160.01 mmol), Pd(PPh3)4 (6.16 g, 5.33 mmol), K2CO3 (55.29 g, 400.04 mmol), 물 (244 mL)을 첨가한 후, 교반 환류시킨다. 반응이 완료되면 ether와 물로 추출한 후 유기층을 MgSO4로 건조하고 농축한 후 생성된 화합물을 silicagel column 및 재결정하여 생성물 71.33 g을 얻었다. (수율: 76%)2-chloro-4-phenyl-6- (7-phenyldibenzo [b, d] furan-2-yl) -1,3,5-triazine (58 g, 133.35 mmol) was added to a round bottom flask and THF (489 mL). ), Then [1,1 ': 3', 1 '': 3 '', 1 '''-quaterphenyl] -3-ylboronic acid (56 g, 160.01 mmol), Pd (PPh 3 ) 4 (6.16 g, 5.33 mmol), K 2 CO 3 (55.29 g, 400.04 mmol), water (244 mL) are added and then stirred to reflux. After the reaction was completed, the mixture was extracted with ether and water, the organic layer was dried over MgSO 4 and concentrated, and the resulting compound was purified by silicagel column and recrystallized to obtain 71.33 g of the product. (Yield 76%)
화합물compound FD-MSFD-MS 화합물compound FD-MSFD-MS
1'-11'-1 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 1'-21'-2 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
1'-31'-3 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) 1'-41'-4 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
1'-51'-5 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91) 1'-61'-6 m/z=781.22(C55H31N3OS=781.93)m / z = 781.22 (C 55 H 31 N 3 OS = 781.93)
1'-71'-7 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 1'-81'-8 m/z=721.22(C50H31N3OS=721.88)m / z = 721.22 (C 50 H 31 N 3 OS = 721.88)
1'-91'-9 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) 1'-101'-10 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
1'-111'-11 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 1'-121'-12 m/z=807.23(C57H33N3OS=807.97)m / z = 807.23 (C 57 H 33 N 3 OS = 807.97)
1'-131'-13 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) 1'-141'-14 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
1'-151'-15 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 1'-161'-16 m/z=859.27(C61H37N3OS=860.05)m / z = 859.27 (C 61 H 37 N 3 OS = 860.05)
1'-171'-17 m/z=807.23(C57H33N3OS=807.97)m / z = 807.23 (C 57 H 33 N 3 OS = 807.97) 1'-181'-18 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91)
1'-191'-19 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) 1'-201'-20 m/z=859.27(C61H37N3OS=860.05)m / z = 859.27 (C 61 H 37 N 3 OS = 860.05)
1'-211'-21 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 1'-221'-22 m/z=857.25(C61H35N3OS=858.03)m / z = 857.25 (C 61 H 35 N 3 OS = 858.03)
1'-231'-23 m/z=833.25(C59H35N3OS=834.01)m / z = 833.25 (C 59 H 35 N 3 OS = 834.01) 1'-241'-24 m/z=825.23(C57H32FN3OS=825.96)m / z = 825.23 (C 57 H 32 FN 3 OS = 825.96)
1'-251'-25 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 1'-261'-26 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
1'-271'-27 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 1'-281'-28 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
1'-291'-29 m/z=732.22(C51H31N3OS=733.89)m / z = 732.22 (C 51 H 31 N 3 OS = 733.89) 1'-301'-30 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
1'-311'-31 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 1'-321'-32 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
1'-331'-33 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 1'-341'-34 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
1'-351'-35 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 1'-361'-36 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
1'-371'-37 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 1'-381'-38 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
1'-391'-39 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 1'-401'-40 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
1'-411'-41 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) 1'-421'-42 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
1'-431'-43 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 1'-441'-44 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
1'-451'-45 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 1'-461'-46 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
1'-471'-47 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 1'-481'-48 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
1'-491'-49 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 1'-501'-50 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
1'-511'-51 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) 1'-521'-52 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
1'-531'-53 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91) 1'-541'-54 m/z=781.22(C55H31N3OS=781.93)m / z = 781.22 (C 55 H 31 N 3 OS = 781.93)
1'-551'-55 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 1'-561'-56 m/z=721.22(C50H31N3OS=721.88)m / z = 721.22 (C 50 H 31 N 3 OS = 721.88)
1'-571'-57 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) 1'-581'-58 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
1'-591'-59 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 1'-601'-60 m/z=807.23(C57H33N3OS=807.97)m / z = 807.23 (C 57 H 33 N 3 OS = 807.97)
1'-611'-61 m/z=723.18(C49H29N3S2=723.91)m / z = 723.18 (C 49 H 29 N 3 S 2 = 723.91) 1'-621'-62 m/z=723.18(C49H29N3S2=723.91)m / z = 723.18 (C 49 H 29 N 3 S 2 = 723.91)
1'-631'-63 m/z=749.20(C51H31N3S2=749.95)m / z = 749.20 (C 51 H 31 N 3 S 2 = 749.95) 1'-641'-64 m/z=875.24(C61H37N3S2=876.11)m / z = 875.24 (C 61 H 37 N 3 S 2 = 876.11)
1'-651'-65 m/z=823.21(C57H33N3S2=824.03)m / z = 823.21 (C 57 H 33 N 3 S 2 = 824.03) 1'-661'-66 m/z=773.20(C53H31N3S2=773.97)m / z = 773.20 (C 53 H 31 N 3 S 2 = 773.97)
1'-671'-67 m/z=799.21(C55H33N3S2=800.01)m / z = 799.21 (C 55 H 33 N 3 S 2 = 800.01) 1'-681'-68 m/z=875.24(C61H37N3S2=876.11)m / z = 875.24 (C 61 H 37 N 3 S 2 = 876.11)
1'-691'-69 m/z=749.20(C51H31N3S2=749.95)m / z = 749.20 (C 51 H 31 N 3 S 2 = 749.95) 1'-701'-70 m/z=873.23(C61H35N3S2=874.09)m / z = 873.23 (C 61 H 35 N 3 S 2 = 874.09)
1'-711'-71 m/z=849.23(C59H35N3S2=850.07)m / z = 849.23 (C 59 H 35 N 3 S 2 = 850.07) 1'-721'-72 m/z=791.19(C53H30FN3S2=791.96)m / z = 791.19 (C 53 H 30 FN 3 S 2 = 791.96)
1'-731'-73 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73) 1'-741'-74 m/z=717.24(C51H31N3O2=717.83)m / z = 717.24 (C 51 H 31 N 3 O 2 = 717.83)
1'-751'-75 m/z=798.30(C57H30D5N3O2=799.0)m / z = 798.30 (C 57 H 30 D 5 N 3 O 2 = 799.0) 1'-761'-76 m/z=843.29(C61H37N3O2=843.99)m / z = 843.29 (C 61 H 37 N 3 O 2 = 843.99)
1'-771'-77 m/z=717.24(C51H31N3O2=717.83)m / z = 717.24 (C 51 H 31 N 3 O 2 = 717.83) 1'-781'-78 m/z=717.24(C51H31N3O3=717.83)m / z = 717.24 (C 51 H 31 N 3 O 3 = 717.83)
1'-791'-79 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73) 1'-801'-80 m/z=793.27(C57H35N3O2=793.93)m / z = 793.27 (C 57 H 35 N 3 O 2 = 793.93)
1'-811'-81 m/z=869.30(C63H39N3O2=870.02)m / z = 869.30 (C 63 H 39 N 3 O 2 = 870.02) 1'-821'-82 m/z=717.24(C51H31N3O2=717.83)m / z = 717.24 (C 51 H 31 N 3 O 2 = 717.83)
1'-831'-83 m/z=722.27(C51H26D5N3O2=722.9)m / z = 722.27 (C 51 H 26 D 5 N 3 O 2 = 722.9) 1'-841'-84 m/z=793.27(C57H35N3O2=793.93)m / z = 793.27 (C 57 H 35 N 3 O 2 = 793.93)
2-12-1 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 2-22-2 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
2-32-3 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) 2-42-4 m/z=859.27(C61H37N3OS=860.05)m / z = 859.27 (C 61 H 37 N 3 OS = 860.05)
2-52-5 m/z=833.25(C59H35N3OS=834.01)m / z = 833.25 (C 59 H 35 N 3 OS = 834.01) 2-62-6 m/z=857.25(C61H35N3OS=858.03)m / z = 857.25 (C 61 H 35 N 3 OS = 858.03)
2-72-7 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 2-82-8 m/z=797.25(C56H35N3OS=797.98)m / z = 797.25 (C 56 H 35 N 3 OS = 797.98)
2-92-9 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) 2-102-10 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
2-112-11 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 2-122-12 m/z=883.27(C63H37N3OS=884.07)m / z = 883.27 (C 63 H 37 N 3 OS = 884.07)
2-132-13 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) 2-142-14 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
2-152-15 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 2-162-16 m/z=935.30(C67H41N3OS=936.15)m / z = 935.30 (C 67 H 41 N 3 OS = 936.15)
2-172-17 m/z=883.27(C63H37N3OS=884.07)m / z = 883.27 (C 63 H 37 N 3 OS = 884.07) 2-182-18 m/z=833.25(C59H35N3OS=834.01)m / z = 833.25 (C 59 H 35 N 3 OS = 834.01)
2-192-19 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 2-202-20 m/z=909.28(C65H39N3OS=910.11)m / z = 909.28 (C 65 H 39 N 3 OS = 910.11)
2-212-21 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 2-222-22 m/z=933.28(C67H39N3OS=934.13)m / z = 933.28 (C 67 H 39 N 3 OS = 934.13)
2-232-23 m/z=909.28(C65H39N3OS=910.11)m / z = 909.28 (C 65 H 39 N 3 OS = 910.11) 2-242-24 m/z=851.24(C59H34FN3OS=852.00)m / z = 851.24 (C 59 H 34 FN 3 OS = 852.00)
2-252-25 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 2-262-26 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
2-272-27 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 2-282-28 m/z=935.30(C67H41N3OS=936.15)m / z = 935.30 (C 67 H 41 N 3 OS = 936.15)
2-292-29 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 2-302-30 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
2-312-31 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 2-322-32 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09)
2-332-33 m/z=961.31(C69H43N3OS=962.18)m / z = 961.31 (C 69 H 43 N 3 OS = 962.18) 2-342-34 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
2-352-35 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 2-362-36 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09)
2-372-37 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 2-382-38 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09)
2-392-39 m/z=961.31(C69H43N3OS=962.18)m / z = 961.31 (C 69 H 43 N 3 OS = 962.18) 2-402-40 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
2-412-41 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 2-422-42 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09)
2-432-43 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 2-442-44 m/z=1032.40(C74H54N3OS=1033.33)m / z = 1032.40 (C 74 H 54 N 3 OS = 1033.33)
2-452-45 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 2-462-46 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09)
2-472-47 m/z=961.31(C69H43N3OS=962.18)m / z = 961.31 (C 69 H 43 N 3 OS = 962.18) 2-482-48 m/z=859.27(C61H37N3OS=860.08)m / z = 859.27 (C 61 H 37 N 3 OS = 860.08)
2-492-49 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 2-502-50 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
2-512-51 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 2-522-52 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09)
2-532-53 m/z=977.29(C69H43N3S2=978.24)m / z = 977.29 (C 69 H 43 N 3 S 2 = 978.24) 2-542-54 m/z=825.23(C57H35N3S2=826.05)m / z = 825.23 (C 57 H 35 N 3 S 2 = 826.05)
2-552-55 m/z=825.23(C57H35N3S2=826.05)m / z = 825.23 (C 57 H 35 N 3 S 2 = 826.05) 2-562-56 m/z=901.26(C63H39N3S2=902.15)m / z = 901.26 (C 63 H 39 N 3 S 2 = 902.15)
2-572-57 m/z=869.30(C63H39N3O2=870.02)m / z = 869.30 (C 63 H 39 N 3 O 2 = 870.02) 2-582-58 m/z=869.30(C63H39N3O2=870.02)m / z = 869.30 (C 63 H 39 N 3 O 2 = 870.02)
2-592-59 m/z=945.34(C69H43N3O2=946.12)m / z = 945.34 (C 69 H 43 N 3 O 2 = 946.12) 2-602-60 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
3-13-1 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69) 3-23-2 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69)
3-33-3 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69) 3-43-4 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
3-53-5 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75) 3-63-6 m/z=731.20(C51H29N3OS=731.87)m / z = 731.20 (C 51 H 29 N 3 OS = 731.87)
3-73-7 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69) 3-83-8 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
3-93-9 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69) 3-103-10 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
3-113-11 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 3-123-12 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
3-133-13 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75) 3-143-14 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69)
3-153-15 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69) 3-163-16 m/z=799.21(C55H33N3S2=800.01)m / z = 799.21 (C 55 H 33 N 3 S 2 = 800.01)
3-173-17 m/z=647.15(C43H25N3S2=647.81)m / z = 647.15 (C 43 H 25 N 3 S 2 = 647.81) 3-183-18 m/z=747.18(C51H29N3S2=747.93)m / z = 747.18 (C 51 H 29 N 3 S 2 = 747.93)
3-193-19 m/z=565.18(C39H23N3O2=565.63)m / z = 565.18 (C 39 H 23 N 3 O 2 = 565.63) 3-203-20 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73)
3-213-21 m/z=722.27(C51H26D5N3S2=722.86)m / z = 722.27 (C 51 H 26 D 5 N 3 S 2 = 722.86) 3-223-22 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
3-233-23 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 3-243-24 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
3-253-25 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 3-263-26 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
3-273-27 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) 3-283-28 m/z=859.27(C61H37N3OS=860.05)m / z = 859.27 (C 61 H 37 N 3 OS = 860.05)
3-293-29 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 3-303-30 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
3-313-31 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) 3-323-32 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
3-333-33 m/z=885.28(C63H39N3OS=886.09)m / z = 885.28 (C 63 H 39 N 3 OS = 886.09) 3-343-34 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
3-353-35 m/z=673.16(C45H27N3S2=673.85)m / z = 673.16 (C 45 H 27 N 3 S 2 = 673.85) 3-363-36 m/z=793.27(C57H35N3O2=793.93)m / z = 793.27 (C 57 H 35 N 3 O 2 = 793.93)
P-1P-1 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69) P-2P-2 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75)
P-3P-3 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75) P-4P-4 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-5P-5 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81) P-6P-6 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75)
P-7P-7 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75) P-8P-8 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-9P-9 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) P-10P-10 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-11P-11 m/z=586.19(C39H18D5N3OS=586.7)m / z = 586.19 (C 39 H 18 D 5 N 3 OS = 586.7) P-12P-12 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81)
P-13P-13 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81) P-14P-14 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-15P-15 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-16P-16 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-17P-17 m/z=636.20(C43H20D5N3OS=636.8)m / z = 636.20 (C 43 H 20 D 5 N 3 OS = 636.8) P-18P-18 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81)
P-19P-19 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81) P-20P-20 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-21P-21 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-22P-22 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-23P-23 m/z=636.20(C43H20D5N3OS=636.8)m / z = 636.20 (C 43 H 20 D 5 N 3 OS = 636.8) P-24P-24 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-25P-25 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-26P-26 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-27P-27 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-28P-28 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-29P-29 m/z=662.22(C45H22D5N3OS=662.8)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.8) P-30P-30 m/z=662.22(C45H22D5N3OS=662.82)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.82)
P-31P-31 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69) P-32P-32 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75)
P-33P-33 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75) P-34P-34 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-35P-35 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81) P-36P-36 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75)
P-37P-37 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75) P-38P-38 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-39P-39 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) P-40P-40 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-41P-41 m/z=586.19(C39H18D5N3OS=586.7)m / z = 586.19 (C 39 H 18 D 5 N 3 OS = 586.7) P-42P-42 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81)
P-43P-43 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81) P-44P-44 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-45P-45 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-46P-46 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-47P-47 m/z=636.20(C43H20D5N3OS=636.8)m / z = 636.20 (C 43 H 20 D 5 N 3 OS = 636.8) P-48P-48 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81)
P-49P-49 m/z=681.19(C47H27N3OS=681.81)m / z = 681.19 (C 47 H 27 N 3 OS = 681.81) P-50P-50 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-51P-51 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-52P-52 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-53P-53 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-54P-54 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-55P-55 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-56P-56 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-57P-57 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-58P-58 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-59P-59 m/z=662.22(C45H22DN3OS=662.82)m / z = 662.22 (C 45 H 22 DN 3 OS = 662.82) P-60P-60 m/z=662.22(C45H22DN3OS=662.82)m / z = 662.22 (C 45 H 22 DN 3 OS = 662.82)
P-61P-61 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) P-62P-62 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-63P-63 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-64P-64 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-65P-65 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91) P-66P-66 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-67P-67 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-68P-68 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-69P-69 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-70P-70 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-71P-71 m/z=662.22(C45H22D5N3OS=662.8)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.8) P-72P-72 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91)
P-73P-73 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91) P-74P-74 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-75P-75 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-76P-76 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-77P-77 m/z=712.23(C49H24D5N3OS=712.9)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.9) P-78P-78 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91)
P-79P-79 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91) P-80P-80 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-81P-81 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-82P-82 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-83P-83 m/z=712.23(C49H24D5N3OS=712.9)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.9) P-84P-84 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-85P-85 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-86P-86 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
P-87P-87 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) P-88P-88 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
P-89P-89 m/z=738.25(C51H26D5N3OS=738.9)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.9) P-90P-90 m/z=738.25(C51H26D5N3OS=738.92)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.92)
P-91P-91 m/z=662.22(C45H22DN3OS=662.82)m / z = 662.22 (C 45 H 22 DN 3 OS = 662.82) P-92P-92 m/z=712.23(C49H24D5N3OS=712.88)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.88)
P-93P-93 m/z=712.23(C49H24D5N3OS=712.9)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.9) P-94P-94 m/z=738.25(C51H26D5N3OS=738.92)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.92)
P-95P-95 m/z=762.25(C53H26D5N3OS=762.9)m / z = 762.25 (C 53 H 26 D 5 N 3 OS = 762.9) P-96P-96 m/z=712.23(C49H24D5N3OS=712.88)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.88)
P-97P-97 m/z=712.23(C49H24D5N3OS=712.9)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.9) P-98P-98 m/z=738.25(C51H26D5N3OS=738.92)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.92)
P-99P-99 m/z=738.25(C51H26D5N3OS=738.9)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.9) P-100P-100 m/z=738.25(C51H26D5N3OS=738.92)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.92)
P-101P-101 m/z=667.2(C45H17D10N3OS=667.9)m / z = 667.2 (C 45 H 17 D 10 N 3 OS = 667.9) P-102P-102 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-103P-103 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-104P-104 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-105P-105 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-106P-106 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-107P-107 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-108P-108 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-109P-109 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-110P-110 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91)
P-111P-111 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) P-112P-112 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
P-113P-113 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-114P-114 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-115P-115 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-116P-116 m/z=662.22(C45H22D5N3OS=662.82)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.82)
P-117P-117 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91) P-118P-118 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91)
P-119P-119 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-120P-120 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-121P-121 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-122P-122 m/z=712.23(C49H24D5N3OS=712.88)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.88)
P-123P-123 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91) P-124P-124 m/z=757.22(C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91)
P-125P-125 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-126P-126 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-127P-127 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-128P-128 m/z=712.23(C49H24D5N3OS=712.88)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.88)
P-129P-129 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95) P-130P-130 m/z=783.23(C55H33N3OS=783.95)m / z = 783.23 (C 55 H 33 N 3 OS = 783.95)
P-131P-131 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) P-132P-132 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99)
P-133P-133 m/z=809.25(C57H35N3OS=809.99)m / z = 809.25 (C 57 H 35 N 3 OS = 809.99) P-134P-134 m/z=738.25(C51H26D5N3OS=738.92)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.92)
P-135P-135 m/z=738.25(C51H26D5N3OS=738.9)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.9) P-136P-136 m/z=662.22(C45H22D5N3OS=662.82)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.82)
P-137P-137 m/z=712.23(C49H24D5N3OS=712.9)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.9) P-138P-138 m/z=712.23(C49H24D5N3OS=712.88)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.88)
P-139P-139 m/z=738.25(C51H26D5N3OS=738.9)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.9) P-140P-140 m/z=762.25(C53H26D5N3OS=762.94)m / z = 762.25 (C 53 H 26 D 5 N 3 OS = 762.94)
P-141P-141 m/z=712.23(C49H24D5N3OS=712.9)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.9) P-142P-142 m/z=712.23(C49H24D5N3OS=712.88)m / z = 712.23 (C 49 H 24 D 5 N 3 OS = 712.88)
P-143P-143 m/z=738.25(C51H26D5N3OS=738.9)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.9) P-144P-144 m/z=738.25(C51H26D5N3OS=738.92)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.92)
P-145P-145 m/z=738.25(C51H26D5N3OS=738.9)m / z = 738.25 (C 51 H 26 D 5 N 3 OS = 738.9) P-146P-146 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
P-147P-147 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) P-148P-148 m/z=662.22(C45H22D5N3OS=662.82)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.82)
P-149P-149 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) P-150P-150 m/z=662.22(C45H22D5N3OS=662.82)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.82)
P-151P-151 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) P-152P-152 m/z=733.22(C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
P-153P-153 m/z=662.22(C45H22D5N3OS=662.8)m / z = 662.22 (C 45 H 22 D 5 N 3 OS = 662.8) p-154p-154 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
p-155p-155 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) P-156P-156 m/z=631.17(C43H25N3OS=631.75)m / z = 631.17 (C 43 H 25 N 3 OS = 631.75)
P-157P-157 m/z=681.19(C45H27N3OS=681.81)m / z = 681.19 (C 45 H 27 N 3 OS = 681.81) p-158p-158 m/z=681.19(C45H27N3OS=681.81)m / z = 681.19 (C 45 H 27 N 3 OS = 681.81)
P-159P-159 m/z=707.20(C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) p-160p-160 m/z=781.22(C55H31N3OS=781.93)m / z = 781.22 (C 55 H 31 N 3 OS = 781.93)
4-14-1 m/z=793.27 (C57H35N3O2=793.93)m / z = 793.27 (C 57 H 35 N 3 O 2 = 793.93) 4-24-2 m/z=869.30 (C63H39N3O2=870.02)m / z = 869.30 (C 63 H 39 N 3 O 2 = 870.02)
4-44-4 m/z=798.3(C57H30D5N3O2=798.96)m / z = 798.3 (C 57 H 30 D 5 N 3 O 2 = 798.96) 4-74-7 m/z=919.32 (C67H41N3O2=920.08)m / z = 919.32 (C 67 H 41 N 3 O 2 = 920.08)
4-84-8 m/z=843.29 (C61H37N3O2=843.99)m / z = 843.29 (C 61 H 37 N 3 O 2 = 843.99) 4-104-10 m/z=945.34 (C69H43N3O2=946.12)m / z = 945.34 (C 69 H 43 N 3 O 2 = 946.12)
4-114-11 m/z=944.32 (C68H40N4O2=945.09)m / z = 944.32 (C 68 H 40 N 4 O 2 = 945.09) 4-124-12 m/z=970.33 (C70H42N4O2=971.13)m / z = 970.33 (C 70 H 42 N 4 O 2 = 971.13)
5-15-1 m/z=657.19 (C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 5-25-2 m/z=733.22 (C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
5-35-3 m/z=733.22 (C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 5-45-4 m/z=733.22 (C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
5-75-7 m/z=707.20 (C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85) 5-85-8 m/z=757.22 (C53H31N3OS=757.91)m / z = 757.22 (C 53 H 31 N 3 OS = 757.91)
5-95-9 m/z=859.27 (C61H37N3OS=860.05)m / z = 859.27 (C 61 H 37 N 3 OS = 860.05) 5-105-10 m/z=707.20 (C49H29N3OS=707.85)m / z = 707.20 (C 49 H 29 N 3 OS = 707.85)
5-115-11 m/z=808.23 (C56H32N4OS=808.96)m / z = 808.23 (C 56 H 32 N 4 OS = 808.96) 5-125-12 m/z=890.31 (C63H34D5N3OS=891.1)m / z = 890.31 (C 63 H 34 D 5 N 3 OS = 891.1)
5-135-13 m/z=824.24 (C55H32N6OS=824.96)m / z = 824.24 (C 55 H 32 N 6 OS = 824.96) 5-145-14 m/z=752.20 (C50H29FN4OS=752.87)m / z = 752.20 (C 50 H 29 FN 4 OS = 752.87)
5-155-15 m/z=765.26 (C51H35N5OS=765.94)m / z = 765.26 (C 51 H 35 N 5 OS = 765.94) 5-165-16 m/z=765.17 (C49H27N5OS2=765.91)m / z = 765.17 (C 49 H 27 N 5 OS 2 = 765.91)
5-175-17 m/z=807.23 (C57H33N3OS=807.97)m / z = 807.23 (C 57 H 33 N 3 OS = 807.97) 5-185-18 m/z=833.25 (C59H35N3OS=834.01)m / z = 833.25 (C 59 H 35 N 3 OS = 834.01)
5-195-19 m/z=733.22 (C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89) 5-205-20 m/z=733.22 (C51H31N3OS=733.89)m / z = 733.22 (C 51 H 31 N 3 OS = 733.89)
7-17-1 m/z=627.23(C45H29N3O=627.75)m / z = 627.23 (C 45 H 29 N 3 O = 627.75) 7-27-2 m/z=627.23(C45H29N3O=627.75)m / z = 627.23 (C 45 H 29 N 3 O = 627.75)
7-37-3 m/z=643.21(C45H29N3S=643.81)m / z = 643.21 (C 45 H 29 N 3 S = 643.81) 7-47-4 m/z=703.26(C51H33N3O=703.85)m / z = 703.26 (C 51 H 33 N 3 O = 703.85)
7-57-5 m/z=627.23(C45H29N3O=627.75)m / z = 627.23 (C 45 H 29 N 3 O = 627.75) 7-67-6 m/z=627.23(C45H29N3O=627.75)m / z = 627.23 (C 45 H 29 N 3 O = 627.75)
7-77-7 m/z=703.26(C51H33N3O=703.85)m / z = 703.26 (C 51 H 33 N 3 O = 703.85) 7-87-8 m/z=703.26(C51H33N3O=703.85)m / z = 703.26 (C 51 H 33 N 3 O = 703.85)
7-97-9 m/z=627.23(C45H29N3O=627.75)m / z = 627.23 (C 45 H 29 N 3 O = 627.75) 7-107-10 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
7-117-11 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 7-127-12 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79)
7-137-13 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73) 7-147-14 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73)
7-157-15 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73) 7-167-16 m/z=717.24(C51H31N3O2=717.83)m / z = 717.24 (C 51 H 31 N 3 O 2 = 717.83)
7-177-17 m/z=717.24(C51H31N3O2=717.83)m / z = 717.24 (C 51 H 31 N 3 O 2 = 717.83) 7-187-18 m/z=581.16(C39H23N3OS=581.69)m / z = 581.16 (C 39 H 23 N 3 OS = 581.69)
7-197-19 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73) 7-207-20 m/z=717.24(C51H31N3O2=717.83)m / z = 717.24 (C 51 H 31 N 3 O 2 = 717.83)
7-217-21 m/z=657.19(C45H27N3OS=657.79)m / z = 657.19 (C 45 H 27 N 3 OS = 657.79) 7-227-22 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73)
7-237-23 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73) 7-247-24 m/z=641.21(C45H27N3O2=641.73)m / z = 641.21 (C 45 H 27 N 3 O 2 = 641.73)
유기전기소자의 제조평가Manufacturing Evaluation of Organic Electrical Device
실험예 1) 그린 유기 발광 소자의 제작 및 시험Experimental Example 1 Fabrication and Test of Green Organic Light Emitting Diode
먼저, 유리 기판에 형성된 ITO층(양극) 위에 우선 홀 주입층으로서 N1-(naphthalen-2-yl)-N4,N4-bis(4-(naphthalen-2-yl(phenyl)amino)phenyl)-N1-phenylbenzene-1,4-diamine (2-TNATA로 약기함) 막을 진공증착하여 60nm 두께로 형성하였다. 이어서, 이 막 상에 정공수송 화합물로서 4,4-비스[N-(1-나프틸)-N-페닐아미노]비페닐 (이하 -NPD로 약기함)를 60 nm 두께로 진공증착하여 홀 수송층을 형성하였다. 이어서, 호스트로서는 화학식 1과 화학식 2로 표시되는 상기 발명화합물6:4로 혼합한 혼합물을 사용하였으며 도판트로서는 Ir(ppy)3 [tris(2-phenylpyridine)-iridium]을 95:5 중량으로 도핑함으로써 상기 홀 수송층 위에 30nm 두께의 발광층을 증착하였다. 홀 저지층으로 (1,1'-비스페닐)-4-올레이토)비스(2-메틸-8-퀴놀린올레이토)알루미늄(이하 BAlq로 약기함)을 10 nm 두께로 진공증착하고, 전자수송층으로 트리스(8-퀴놀리놀)알루미늄(이하 Alq3로 약칭함)을 40 nm 두께로 성막하였다. 이후, 전자주입층으로 할로젠화 알칼리 금속인 LiF를 0.2 nm 두께로 증착하고, 이어서 Al을 150nm의 두께로 증착하여 음극으로 사용함으로서 유기전계 발광소자를 제조하였다.First, on the ITO layer (anode) formed on the glass substrate, N 1- (naphthalen-2-yl) -N 4 , N 4 -bis (4- (naphthalen-2-yl (phenyl) amino) phenyl ) -N 1 -phenylbenzene-1,4-diamine (abbreviated as 2-TNATA) membrane was vacuum deposited to form a thickness of 60 nm. Subsequently, 4,4-bis [N- (1-naphthyl) -N-phenylamino] biphenyl (hereinafter abbreviated as -NPD) was vacuum-deposited to a thickness of 60 nm as a hole transporting compound on the membrane to form a hole transport layer. Formed. Subsequently, a mixture of the inventive compound 6: 4 represented by Chemical Formula 1 and Chemical Formula 2 was used as a host, and a dopant was doped with 95: 5 weight of Ir (ppy) 3 [tris (2-phenylpyridine) -iridium]. As a result, a light emitting layer having a thickness of 30 nm was deposited on the hole transport layer. As a hole blocking layer, (1,1'-bisphenyl) -4-oleito) bis (2-methyl-8-quinoline oleito) aluminum (hereinafter abbreviated as BAlq) was vacuum-deposited to a thickness of 10 nm, and the electron transport layer Tris (8-quinolinol) aluminum (hereinafter abbreviated as Alq3) was formed into a 40 nm thick film. Subsequently, LiF, which is an alkali metal halide, was deposited to a thickness of 0.2 nm as an electron injection layer, and then, Al was deposited to a thickness of 150 nm to prepare an organic light emitting device.
이와 같이 제조된 실시예 및 비교예 유기전기발광소자들에 순바이어스 직류전압을 가하여 포토리서치(photoresearch)사의 PR-650으로 전기발광(EL) 특성을 측정하였으며, 그 측정 결과 5000cd/m2 기준 휘도에서 맥사이언스사에서 제조된 수명 측정 장비를 통해 T95 수명을 측정하였다. 하기 표는 소자제작 및 평가한 결과를 나타낸다.The embodiments thus prepared Examples and Comparative Examples, the organic electroluminescence was applied with a forward bias DC voltage to the element Photo Research (photoresearch) 's were measured and electroluminescence (EL) properties by PR-650, the measurement result 5000cd / m 2 based on the luminance The T95 lifetime was measured using a life measurement instrument manufactured by McScience Inc. The following table shows the results of device fabrication and evaluation.
[비교예 1]Comparative Example 1
비교화합물1을 단독으로 호스트로 사용하는 것을 제외하고는 상기 실시예 1과 동일한 방법으로 유기전기발광소자를 제작하였다.An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 1 was used alone as a host.
[비교예 2]Comparative Example 2
비교화합물2를 단독으로 호스트로 사용하는 것을 제외하고는 상기 실시예 1과 동일한 방법으로 유기전기발광소자를 제작하였다.An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 2 was used alone as a host.
[비교예 3]Comparative Example 3
비교화합물3을 단독으로 호스트로 사용하는 것을 제외하고는 상기 실시예 1과 동일한 방법으로 유기전기발광소자를 제작하였다.An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 3 was used alone.
[비교예 4, 비교예 5][Comparative Example 4, Comparative Example 5]
화학식 2로 표시되는 화합물을 단독으로 호스트로 사용하는 것을 제외하고는 상기 실시예 1과 동일한 방법으로 유기전기발광소자를 제작하였다.An organic electroluminescent device was manufactured in the same manner as in Example 1, except that the compound represented by Formula 2 was used alone as a host.
[비교예 6]Comparative Example 6
비교화합물1과 화학식2로 표시되는 화합물을 혼합하여 호스트로 사용하는 것을 제외하고는 상기 실시예 1과 동일한 방법으로 유기전기발광소자를 제작하였다.An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 1 and the compound represented by Chemical Formula 2 were used as a host.
[비교예 7]Comparative Example 7
비교화합물2와 화학식2로 표시되는 화합물을 혼합하여 호스트로 사용하는 것을 제외하고는 상기 실시예 1과 동일한 방법으로 유기전기발광소자를 제작하였다.An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 2 and the compound represented by Chemical Formula 2 were used as a host.
[비교예 8]Comparative Example 8
비교화합물3과 화학식2로 표시되는 화합물을 혼합하여 호스트로 사용하는 것을 제외하고는 상기 실시예 1과 동일한 방법으로 유기전기발광소자를 제작하였다.An organic electroluminescent device was manufactured in the same manner as in Example 1, except that Comparative Compound 3 and the compound represented by Chemical Formula 2 were used as a host.
[비교화합물 1] [비교화합물 2] [비교화합물 3]    [Comparative Compound 1] [Comparative Compound 2] [Comparative Compound 3]
Figure PCTKR2019003116-appb-I000238
Figure PCTKR2019003116-appb-I000238
제 1호스트Host 1 제 2호스트Host 2 VoltageVoltage Current DensityCurrent density Brightness(cd/m2)Brightness (cd / m2) EfficiencyEfficiency LifetimeT(95)LifetimeT (95)
비교예(1)Comparative Example (1) 비교화합물 1Comparative Compound 1 -- 5.55.5 19.5 19.5 5000.0 5000.0 25.6 25.6 80.480.4
비교예(2)Comparative Example (2) 비교화합물 2Comparative Compound 2 -- 5.95.9 46.3 46.3 5000.0 5000.0 10.8 10.8 20.320.3
비교예(3)Comparative Example (3) 비교화합물 3Comparative Compound 3 -- 6.06.0 48.5 48.5 5000.0 5000.0 10.3 10.3 23.823.8
비교예(4)Comparative Example (4) -- 화합물 1'-25 Compound 1'-25 5.35.3 15.7 15.7 5000.0 5000.0 31.9 31.9 60.860.8
비교예(5)Comparative Example (5) -- 화합물 P-26Compound P-26 5.15.1 14.8 14.8 5000.0 5000.0 33.8 33.8 58.258.2
비교예(6)Comparative Example (6) 비교화합물 1Comparative Compound 1 화합물 P-26Compound P-26 4.84.8 12.3 12.3 5000.0 5000.0 40.8 40.8 129.9129.9
비교예(7)Comparative Example (7) 비교화합물 2Comparative Compound 2 화합물 P-26Compound P-26 4.64.6 13.6 13.6 5000.0 5000.0 36.9 36.9 70.470.4
비교예(8)Comparative Example (8) 비교화합물 3Comparative Compound 3 화합물 P-26Compound P-26 4.54.5 12.9 12.9 5000.0 5000.0 38.7 38.7 75.675.6
실시예(1)Example (1) 화합물 1-2Compound 1-2 화합물 1'-25 Compound 1'-25 4.1 4.1 11.7 11.7 5000.0 5000.0 42.8 42.8 130.3 130.3
실시예(2)Example (2) 화합물 P-8 Compound P-8 4.3 4.3 11.2 11.2 5000.0 5000.0 44.5 44.5 130.1 130.1
실시예(3)Example (3) 화합물 P-26 Compound P-26 4.3 4.3 11.6 11.6 5000.0 5000.0 43.2 43.2 131.0 131.0
실시예(4)Example (4) 화합물 P-69Compound P-69 4.1 4.1 11.3 11.3 5000.0 5000.0 44.3 44.3 130.9 130.9
실시예(5)Example (5) 화합물 4-5 Compound 4-5 4.1 4.1 11.5 11.5 5000.0 5000.0 43.6 43.6 132.5 132.5
실시예(6)Example (6) 화합물 5-2 Compound 5-2 4.1 4.1 11.3 11.3 5000.0 5000.0 44.2 44.2 132.9 132.9
실시예(7)Example (7) 화합물 6-4 Compound 6-4 4.2 4.2 11.5 11.5 5000.0 5000.0 43.3 43.3 131.5 131.5
실시예(8)Example (8) 화합물 1-16Compound 1-16 화합물 1'-25 Compound 1'-25 4.2 4.2 11.6 11.6 5000.0 5000.0 43.2 43.2 132.5 132.5
실시예(9)Example (9) 화합물 P-8 Compound P-8 4.0 4.0 12.1 12.1 5000.0 5000.0 41.5 41.5 132.8 132.8
실시예(10)Example (10) 화합물 P-26 Compound P-26 4.0 4.0 12.1 12.1 5000.0 5000.0 41.2 41.2 131.8 131.8
실시예(11)Example (11) 화합물 P-69Compound P-69 4.1 4.1 12.5 12.5 5000.0 5000.0 40.1 40.1 131.3 131.3
실시예(12)Example (12) 화합물 4-5 Compound 4-5 4.3 4.3 11.9 11.9 5000.0 5000.0 42.0 42.0 130.2 130.2
실시예(13)Example (13) 화합물 5-2 Compound 5-2 4.2 4.2 11.2 11.2 5000.0 5000.0 44.8 44.8 130.7 130.7
실시예(14)Example (14) 화합물 6-4 Compound 6-4 4.1 4.1 11.3 11.3 5000.0 5000.0 44.2 44.2 130.7 130.7
실시예(15)Example (15) 화합물 1-36Compound 1-36 화합물 1'-25 Compound 1'-25 3.7 3.7 10.3 10.3 5000.0 5000.0 48.4 48.4 136.8 136.8
실시예(16)Example (16) 화합물 P-8 Compound P-8 3.8 3.8 10.2 10.2 5000.0 5000.0 48.8 48.8 136.1 136.1
실시예(17)Example (17) 화합물 P-26 Compound P-26 3.8 3.8 10.3 10.3 5000.0 5000.0 48.6 48.6 137.5 137.5
실시예(18)Example (18) 화합물 P-69Compound P-69 3.8 3.8 10.1 10.1 5000.0 5000.0 49.5 49.5 139.0 139.0
실시예(19)Example (19) 화합물 4-5 Compound 4-5 3.8 3.8 10.1 10.1 5000.0 5000.0 49.3 49.3 136.2 136.2
실시예(20)Example (20) 화합물 5-2 Compound 5-2 3.9 3.9 11.0 11.0 5000.0 5000.0 45.3 45.3 139.9 139.9
실시예(21)Example (21) 화합물 6-4 Compound 6-4 3.8 3.8 10.5 10.5 5000.0 5000.0 47.7 47.7 136.0 136.0
실시예(22)Example (22) 화합물 1-64Compound 1-64 화합물 1'-25 Compound 1'-25 3.8 3.8 10.5 10.5 5000.0 5000.0 47.7 47.7 136.5 136.5
실시예(23)Example (23) 화합물 P-8 Compound P-8 3.8 3.8 10.1 10.1 5000.0 5000.0 49.7 49.7 135.5 135.5
실시예(24)Example (24) 화합물 P-26 Compound P-26 3.8 3.8 10.3 10.3 5000.0 5000.0 48.4 48.4 136.4 136.4
실시예(25)Example (25) 화합물 P-69Compound P-69 3.8 3.8 10.4 10.4 5000.0 5000.0 47.9 47.9 137.6 137.6
실시예(26)Example (26) 화합물 4-5 Compound 4-5 3.8 3.8 10.6 10.6 5000.0 5000.0 47.3 47.3 139.5 139.5
실시예(27)Example (27) 화합물 5-2 Compound 5-2 3.7 3.7 10.1 10.1 5000.0 5000.0 49.6 49.6 136.1 136.1
실시예(28)Example (28) 화합물 6-4 Compound 6-4 3.9 3.9 10.2 10.2 5000.0 5000.0 48.8 48.8 139.8 139.8
실시예(29)Example (29) 화합물 1-74Compound 1-74 화합물 1'-25 Compound 1'-25 4.2 4.2 10.4 10.4 5000.0 5000.0 48.1 48.1 138.7 138.7
실시예(30)Example (30) 화합물 P-8 Compound P-8 4.1 4.1 10.1 10.1 5000.0 5000.0 49.7 49.7 135.4 135.4
실시예(31)Example (31) 화합물 P-26 Compound P-26 4.2 4.2 10.6 10.6 5000.0 5000.0 47.3 47.3 136.6 136.6
실시예(32)Example (32) 화합물 P-69Compound P-69 4.0 4.0 10.2 10.2 5000.0 5000.0 49.0 49.0 136.8 136.8
실시예(33)Example (33) 화합물 4-5 Compound 4-5 4.1 4.1 10.7 10.7 5000.0 5000.0 46.7 46.7 138.5 138.5
실시예(34)Example (34) 화합물 5-2 Compound 5-2 4.2 4.2 10.2 10.2 5000.0 5000.0 48.9 48.9 135.1 135.1
실시예(35)Example (35) 화합물 6-4 Compound 6-4 4.3 4.3 10.7 10.7 5000.0 5000.0 46.7 46.7 139.6 139.6
실시예(36)Example (36) 화합물 1-100Compound 1-100 화합물 1'-25 Compound 1'-25 3.8 3.8 10.2 10.2 5000.0 5000.0 49.2 49.2 137.4 137.4
실시예(37)Example (37) 화합물 P-8 Compound P-8 3.8 3.8 10.1 10.1 5000.0 5000.0 49.5 49.5 139.8 139.8
실시예(38)Example (38) 화합물 P-26 Compound P-26 3.9 3.9 10.2 10.2 5000.0 5000.0 49.2 49.2 138.4 138.4
실시예(39)Example (39) 화합물 P-69Compound P-69 3.8 3.8 10.9 10.9 5000.0 5000.0 46.1 46.1 140.0 140.0
실시예(40)Example (40) 화합물 4-5 Compound 4-5 3.7 3.7 10.7 10.7 5000.0 5000.0 46.9 46.9 135.4 135.4
실시예(41)Example (41) 화합물 5-2 Compound 5-2 3.8 3.8 10.9 10.9 5000.0 5000.0 45.8 45.8 138.4 138.4
실시예(42)Example (42) 화합물 6-4 Compound 6-4 3.7 3.7 10.5 10.5 5000.0 5000.0 47.5 47.5 138.3 138.3
실시예(43)Example (43) 화합물 1-122Compound 1-122 화합물 1'-25 Compound 1'-25 3.8 3.8 12.5 12.5 5000.0 5000.0 40.0 40.0 130.6 130.6
실시예(44)Example (44) 화합물 P-8 Compound P-8 3.8 3.8 11.5 11.5 5000.0 5000.0 43.5 43.5 131.9 131.9
실시예(45)Example (45) 화합물 P-26 Compound P-26 3.9 3.9 11.6 11.6 5000.0 5000.0 43.1 43.1 131.5 131.5
실시예(46)Example (46) 화합물 P-69Compound P-69 3.7 3.7 12.0 12.0 5000.0 5000.0 41.6 41.6 132.9 132.9
실시예(47)Example (47) 화합물 4-5 Compound 4-5 3.7 3.7 11.3 11.3 5000.0 5000.0 44.2 44.2 132.3 132.3
실시예(48)Example (48) 화합물 5-2 Compound 5-2 3.8 3.8 11.2 11.2 5000.0 5000.0 44.6 44.6 130.6 130.6
실시예(49)Example (49) 화합물 6-4 Compound 6-4 3.8 3.8 11.7 11.7 5000.0 5000.0 42.9 42.9 131.4 131.4
실시예(50)Example (50) 화합물 1-141Compound 1-141 화합물 1'-25 Compound 1'-25 4.3 4.3 11.8 11.8 5000.0 5000.0 42.5 42.5 130.7 130.7
실시예(51)Example (51) 화합물 P-8 Compound P-8 4.1 4.1 12.5 12.5 5000.0 5000.0 40.1 40.1 132.2 132.2
실시예(52)Example (52) 화합물 P-26 Compound P-26 4.2 4.2 11.2 11.2 5000.0 5000.0 44.7 44.7 132.7 132.7
실시예(53)Example (53) 화합물 P-69Compound P-69 4.2 4.2 11.3 11.3 5000.0 5000.0 44.3 44.3 132.9 132.9
실시예(54)Example (54) 화합물 4-5 Compound 4-5 4.3 4.3 11.6 11.6 5000.0 5000.0 42.9 42.9 130.7 130.7
실시예(55)Example (55) 화합물 5-2 Compound 5-2 4.1 4.1 11.4 11.4 5000.0 5000.0 44.0 44.0 130.6 130.6
실시예(56)Example (56) 화합물 6-4 Compound 6-4 4.2 4.2 12.1 12.1 5000.0 5000.0 41.3 41.3 131.7 131.7
상기 표 5의 결과로부터 알 수 있듯이, 화학식 1과 화학식 2로 표시되는 본 발명의 유기전기발광소자용 재료를 혼합하여 인광 호스트로 사용할 경우 (실시예 1~56), 단일물질을 사용한 소자(비교예 1~5) 또는 비교화합물과 혼합한 소자(비교예 6~8)에 비해 구동전압, 효율 및 수명을 현저히 개선시키는 것을 확인할 수 있었다.3차 아민 화합물인 비교화합물 2와 비교화합물 3은 단일 물질로 인광호스트로 사용했을 시에는 구동, 효율 및 수명 모두 좋지 않은 결과를 나타내었고, 비교화합물 1은 수명에서는 가장 우수했다. 화학식 2로 표시되는 화합물을 단독으로 사용했을 시에는 비교화합물들에 비해 구동 및 효율에서 소폭 강세가 있었으나 비교화합물 1 내지 비교화합물 3과 화학식 2로 표시되는 화합물을 혼합하여 인광 호스트로 사용을 하니 단일 물질로 사용할 때보다 모든 효과가 향상되었다. 정공수송능력이 강한 비교화합물 1과 화학식 2로 표시되는 화합물을 혼합하였을 때는 수명면에서 현저한 효과를 나타내었고, 3차아민 화합물인 비교화합물 2, 비교화합물 3을 혼합하였을 때는 구동면에서 현저한 효과를 보였다. 이 결과만 봐도 단일 호스트로는 성능이 좋지 않은 화합물도 전하균형이 잘 맞는 화합물과 혼합했을 시에는 효과를 개선시킬 수 있음을 확인할 수 있다.As can be seen from the results of Table 5, when the material for the organic electroluminescent device of the present invention represented by the formula (1) and (2) is used as a phosphorescent host (Examples 1 to 56), a device using a single material (comparative Examples 1 to 5) or compared with the device mixed with the comparative compound (Comparative Examples 6 to 8), it was confirmed that the driving voltage, efficiency and life significantly improved. When used as a phosphorescent host, the driving, efficiency and lifespan were poor. Comparative Compound 1 was the best in life. When the compound represented by Formula 2 was used alone, there was a slight increase in driving and efficiency compared to the comparative compounds, but the compound represented by Formula 1 to Comparative Compound 3 and the compound represented by Formula 2 was used as a phosphorescent host. All effects have been improved when used as a substance. When the compound represented by Formula 2 and the compound having strong hole transporting capacity are mixed, the compound has a significant effect on the lifespan, and when the compound of the tertiary amine compound, Comparative Compound 2 and Comparative Compound 3, is mixed, it has a significant effect on the driving surface. Seemed. From these results alone, it can be seen that even a compound having poor performance with a single host can be improved when mixed with a compound having a good charge balance.
그리고 상기 비교예 1~비교예 8의 경우보다 본 발명인 화학식 1과 화학식 2의 화합물을 혼합하여 호스트로 사용한 실시예 1~실시예 56이 현저히 개선된 효과를 나타내는 것을 확인할 수 있었다.And compared to the case of Comparative Examples 1 to 8 it was confirmed that Example 1 to Example 56 used as a host by mixing the compound of the formula (1) and formula (2) of the present invention showed a markedly improved effect.
본 발명자들은 상기 실험결과를 근거로 화학식 1의 물질과 화학식 2의 물질을 혼합한 물질의 경우 각각 물질에 대한 특성 이외의 다른 신규한 특성을 갖는다고 판단하여, 화학식 1의 물질, 화학식 2의 물질, 본 발명 혼합물을 각각 사용하여 PL lifetime을 측정하였다. 그 결과 본 발명 화합물인 화학식 1과 화학식 2를 혼합하였을 경우 단독 화합물일 때와 달리 새로운 PL 파장이 형성되는 것을 확인할 수 있었으며, 새롭게 형성된 PL 파장의 감소 및 소멸 시간은 화학식 1 및 화학식 1물질 각각의 감소 및 소멸시간보다 작게는 약 60배에서 많게는 약 360배까지 증가하는 하는 것을 확인할 수 있었다. 이는 본 발명화합물을 혼합하여 사용할 경우 각각의 물질이 갖는 에너지 준위를 통해 전자와 정공이 이동되는 것뿐만 아니라, 혼합으로 인하여 형성된 새로운 에너지 준위를 갖는 신규 영역에(exciplex) 의한 전자, 정공 이동 또는 에너지 전달로 효율 및 수명이 증가하는 것으로 판단된다. 이는 결과적으로 상기 본 발명 혼합물을 사용할 경우 혼합 박막이 exciplex 에너지 전달 및 발광 프로세스를 보이는 중요한 예라고 할 수 있다.The inventors of the present invention determine that each of the substances of the compound of Formula 1 and the compound of Formula 2 have new characteristics other than those of the substances, based on the experimental results, the substance of Formula 1, the substance of Formula 2 , PL lifetime was measured using the mixture of the present invention. As a result, when the compounds of the present invention were mixed with Chemical Formula 1 and Chemical Formula 2, it was confirmed that a new PL wavelength was formed differently from a single compound. It was confirmed that the decrease and disappearance time increased from about 60 times to as much as about 360 times. This means that when the compounds of the present invention are used in combination, not only electrons and holes move through the energy levels of the respective materials, but also electrons, hole movements or energy due to exciplexes having new energy levels formed by mixing. The transmission is believed to increase efficiency and lifetime. As a result, when using the mixture of the present invention it can be said that the mixed thin film is an important example showing the exciplex energy transfer and the light emission process.
또한 비교화합물을 혼합한 인광호스트로 사용한 비교예 6~8보다 본 발명의 조합이 우수한 이유는 비교화합물 2, 3에서 아민기가 하나 더 추가된 화학식 1로 표시되는 화합물을 사용함으로써 Hole 특성을 향상시켜 electron 특성이 강한 화학식 2로 표시되는 화합물과 전기화학적으로 좋은 시너지 작용을 하여 이에 따라 정공과 전자의 발광층 내 charge balance가 증가되어 정공수송층 계면이 아닌 발광층 내부에서 발광이 잘 이루어지고, 그로 인해 HTL 계면에 열화 또한 감소하여 소자 전체의 구동 전압, 효율 그리고 수명이 극대화 된다고 판단된다.In addition, the combination of the present invention is superior to Comparative Examples 6 to 8 used as a phosphorescent host mixed with a comparative compound by using a compound represented by the formula (1) in which one more amine group is added in Comparative Compounds 2 and 3 to improve the hole characteristics. Electrochemically synergistic effect with the compound represented by the general formula (2) having a strong electron properties, thereby increasing the charge balance in the light emitting layer of holes and electrons, thereby emitting light in the light emitting layer rather than the hole transport layer interface, thereby the HTL interface Deterioration is also reduced, which maximizes the driving voltage, efficiency and lifetime of the device.
실험예 2) 혼합비율별 그린 유기 발광 소자의 제작 및 시험Experimental Example 2) Fabrication and Test of Green Organic Light-Emitting Device by Mixing Ratio
제 1호스트Host 1 제 2호스트`2nd host` 혼합 비율 (제 1 호스트 : 제 2호스트)Mixed Ratio (First Host: Second Host) VoltageVoltage Current DensityCurrent density Brightness(cd/m2)Brightness (cd / m2) EfficiencyEfficiency LifetimeT(95)LifetimeT (95)
실시예(57)Example (57) 화합물 1-36Compound 1-36 화합물 1'-25Compound 1'-25 7:37: 3 3.93.9 10.2 10.2 5000.0 5000.0 49.1 49.1 140.2 140.2
실시예(58)Example (58) 5:55: 5 3.83.8 10.7 10.7 5000.0 5000.0 46.8 46.8 130.3130.3
실시예(59)Example (59) 4:64: 6 3.6 3.6 11.1 11.1 5000.0 5000.0 45.2 45.2 125.7 125.7
실시예(60)Example (60) 3:73: 7 3.83.8 11.2 11.2 5000.0 5000.0 44.6 44.6 120.6120.6
실시예(61)Example (61) 화합물 1-64Compound 1-64 화합물 P-26Compound P-26 7:37: 3 4.04.0 10.0 10.0 5000.0 5000.0 50.1 50.1 139.4139.4
실시예(62)Example (62) 5:55: 5 3.73.7 10.9 10.9 5000.0 5000.0 45.8 45.8 130.5130.5
실시예(63)Example (63) 4:64: 6 3.63.6 11.5 11.5 5000.0 5000.0 43.5 43.5 123.4123.4
실시예(64)Example (64) 3:73: 7 3.83.8 12.3 12.3 5000.0 5000.0 40.7 40.7 120.2120.2
상기 표 6과 같이 본 발명의 화합물의 혼합물을 비율 별(7:3, 5:5, 4:6, 3:7)로 실험예 1과 동일하게 소자를 제작하여 측정하였다.비율별로 측정한 결과 7:3의 경우에는 6:4로 측정한 실험 예1)의 결과와 유사했지만, 제 1호스트의 비율이 감소되면서 5:5, 4:6, 3:7의 경우에는 구동전압, 효율 및 수명의 결과가 점점 떨어지는 것을 확인하였다. 이는 7:3, 4:6과 같이 hole 특성이 강한 화학식 1로 표시되는 화합물이 적정한 양이 혼합될 경우, 발광층 내 charge balance가 극대화되기 때문이라 설명할 수 있다.As shown in Table 6, the mixture of the compound of the present invention was measured and manufactured in the same manner as Experimental Example 1 by ratio (7: 3, 5: 5, 4: 6, 3: 7). In the case of 7: 3, it is similar to the result of Experiment 1 measured at 6: 4, but the driving voltage, efficiency, and lifetime in the case of 5: 5, 4: 6, and 3: 7 are reduced as the ratio of the first host is decreased. It was confirmed that the results of the falling gradually. This may be explained because the charge balance in the light emitting layer is maximized when an appropriate amount of the compound represented by Formula 1 having strong hole characteristics such as 7: 3 and 4: 6 is mixed.
실험예 3) 그린 유기 발광 소자의 제작 및 시험Experimental Example 3) Fabrication and Test of Green Organic Light Emitting Diode
먼저, 유리 기판에 형성된 ITO층(양극) 위에 우선 홀 주입층으로서 N1-(naphthalen-2-yl)-N4,N4-bis(4-(naphthalen-2-yl(phenyl)amino)phenyl)-N1-phenylbenzene-1,4-diamine (2-TNATA로 약기함) 막을 진공증착하여 60 nm 두께로 형성하였다. 이어서, 이 막 상에 정공수송 화합물로서 4,4-비스[N-(1-나프틸)-N-페닐아미노]비페닐 (이하 -NPD로 약기함)를 60 nm 두께로 진공증착하여 홀 수송층을 형성하였다. 이어서, 호스트로서는 화학식 19 또는 화학식 21로 표시되는 상기 발명화합물을 사용하였으며 도판트로서는 Ir(ppy)3 [tris(2-phenylpyridine)-iridium] 을 5:5 중량으로 도핑함으로써 상기 홀 수송층 위에 30nm 두께의 발광층을 증착하였다. 홀 저지층으로 (1,1'-비스페닐)-4-올레이토)비스(2-메틸-8-퀴놀린올레이토)알루미늄(이하 BAlq로 약기함)을 10 nm 두께로 진공증착하고, 전자수송층으로 트리스(8-퀴놀리놀)알루미늄(이하 Alq3로 약칭함)을 40 nm 두께로 성막하였다. 이후, 전자주입층으로 할로젠화 알칼리 금속인 LiF를 0.2 nm 두께로 증착하고, 이어서 Al을 150 nm의 두께로 증착하여 음극으로 사용함으로서 유기전계 발광소자를 제조하였다.First, on the ITO layer (anode) formed on the glass substrate, N 1- (naphthalen-2-yl) -N 4 , N 4 -bis (4- (naphthalen-2-yl (phenyl) amino) phenyl ) -N 1 -phenylbenzene-1,4-diamine (abbreviated as 2-TNATA) membrane was vacuum deposited to form a thickness of 60 nm. Subsequently, 4,4-bis [N- (1-naphthyl) -N-phenylamino] biphenyl (hereinafter abbreviated as -NPD) was vacuum-deposited to a thickness of 60 nm as a hole transporting compound on the membrane to form a hole transport layer. Formed. Subsequently, the inventive compound represented by the formula (19) or (21) was used as a host, and the dopant was 30 nm thick on the hole transport layer by doping Ir (ppy) 3 [tris (2-phenylpyridine) -iridium] at a 5: 5 weight. The light emitting layer of was deposited. As a hole blocking layer, (1,1'-bisphenyl) -4-oleito) bis (2-methyl-8-quinoline oleito) aluminum (hereinafter abbreviated as BAlq) was vacuum-deposited to a thickness of 10 nm, and the electron transport layer Tris (8-quinolinol) aluminum (hereinafter abbreviated as Alq3) was formed into a 40 nm thick film. Thereafter, LiF, an alkali metal halide, was deposited to a thickness of 0.2 nm as an electron injection layer, and then, Al was deposited to a thickness of 150 nm to use an organic light emitting device.
이와 같이 제조된 실시예 및 비교예 유기전기발광소자들에 순바이어스 직류전압을 가하여 포토리서치(photoresearch)사의 PR-650으로 전기발광(EL) 특성을 측정하였으며, 그 측정 결과 5000cd/m2 기준 휘도에서 맥사이언스사에서 제조된 수명 측정 장비를 통해 T95 수명을 측정하였다. 하기 표는 소자제작 및 평가한 결과를 나타낸다.The electroluminescent (EL) characteristics of the Example and Comparative Example organic electroluminescent devices manufactured as described above were applied to the PR-650 of photoresearch by applying a forward bias DC voltage. The T95 life was measured using a life measurement instrument manufactured by McScience. The following table shows the results of device fabrication and evaluation.
[비교예 9 내지 비교예 12][Comparative Example 9 to Comparative Example 12]
비교화합물 4 내지 비교화합물 7을 각각 단독 호스트로 사용하는 것을 제외하고는 상기 실험예 3과 동일한 방법으로 유기전기발광소자를 제작하였다.The organic electroluminescent device was manufactured by the same method as Experimental Example 3, except that Comparative Compounds 4 to 7 were used as single hosts.
비교화합물 4 비교화합물 5 비교화합물 6 비교화합물 7Comparative Compound 4 Comparative Compound 5 Comparative Compound 6 Comparative Compound 7
Figure PCTKR2019003116-appb-I000239
Figure PCTKR2019003116-appb-I000239
  화합물compound 구동전압Driving voltage 전류(mA/cm2)Current (mA / cm2) 휘도(cd/m2)Luminance (cd / m2) 효율(cd/A)Efficiency (cd / A) T(95)T (95) CIECIE
xx yy
비교예(9)Comparative Example (9) 비교화합물 4Comparative Compound 4 5.55.5 17.6 17.6 5000.0 5000.0 28.4 28.4 74.274.2 0.30 0.30 0.63 0.63
비교예(10)Comparative Example (10) 비교화합물 5Comparative Compound 5 5.95.9 14.4 14.4 5000.0 5000.0 34.7 34.7 65.465.4 0.34 0.34 0.65 0.65
비교예(11)Comparative Example (11) 비교화합물 6Comparative Compound 6 6.26.2 11.4 11.4 5000.0 5000.0 43.8 43.8 80.680.6 0.33 0.33 0.60 0.60
비교예(12)Comparative Example (12) 비교화합물 7Comparative Compound 7 6.66.6 11.3 11.3 5000.0 5000.0 44.1 44.1 84.384.3 0.33 0.33 0.62 0.62
실시예(65)Example (65) 화합물(7-1)Compound (7-1) 5.2 5.2 9.3 9.3 5000.0 5000.0 53.8 53.8 100.5 100.5 0.32 0.32 0.61 0.61
실시예(66)Example (66) 화합물(7-7)Compound (7-7) 5.2 5.2 9.6 9.6 5000.0 5000.0 52.0 52.0 104.8 104.8 0.31 0.31 0.62 0.62
실시예(67)Example (67) 화합물(7-10)Compound (7-10) 5.1 5.1 9.3 9.3 5000.0 5000.0 53.8 53.8 100.7 100.7 0.35 0.35 0.62 0.62
실시예(68)Example (68) 화합물(7-13)Compound (7-13) 4.94.9 8.8 8.8 5000.0 5000.0 56.7 56.7 104.7 104.7 0.31 0.31 0.63 0.63
실시예(69)Example (69) 화합물(7-19)Compound (7-19) 5.2 5.2 9.1 9.1 5000.0 5000.0 54.7 54.7 103.0 103.0 0.30 0.30 0.63 0.63
실시예(70)Example (70) 화합물(7-21)Compound (7-21) 5.1 5.1 9.3 9.3 5000.0 5000.0 53.6 53.6 102.0 102.0 0.30 0.30 0.61 0.61
상기와 같이 본 발명의 화합물을 인광호스트로 사용한 유기전기발광소자는 비교화합물을 사용한 유기전기발광소자에 비해 구동전압, 효율 그리고 수명 모두 현저히 개선시킴을 확인할 수 있다. 비교화합물 4와 본 발명과의 차이는 m-phenylene의 연결기 유무의 차이이고 비교화합물 5와 비교화합물 6는 dibenzouran에 phenyl, biphenyl과 같은 2차 치환기의 유무의 차이, 그리고 비교화합물 7은 dibenzofuran의 치환 개수에 따른 차이가 있다. 소자데이터를 종합하여 판단해보면, m-phenylene의 연결기는 효율을 개선시키는 효과가 있고, dibenzouran에 2차 치환기는 특히 수명을 현저히 개선시키는 효과를 확인할 수 있었다. 이는 동일한 코어일지라도 특정 치환기가 치환됨에 따라 화합물의 에너지 레벨 (HOMO레벨, LUMO 레벨, T1레벨)이 현저히 달라지게 되고 이와 같은 화합물의 물성의 차이가 소자 증착 시 소자 성능 향상에 주요인자 (예를 들면 energy balance와 같은)로 작용하여 이러한 상이한 소자 결과가 도출될 수 있음을 시사하고 있다. As described above, it can be seen that the organic electroluminescent device using the compound of the present invention as a phosphorescent host significantly improves driving voltage, efficiency, and lifetime as compared to the organic electroluminescent device using the comparative compound. The difference between Comparative Compound 4 and the present invention is the difference in the presence or absence of a linking group of m-phenylene, Comparative Compound 5 and Comparative Compound 6 is the difference in the presence or absence of secondary substituents such as phenyl and biphenyl in dibenzouran, and Comparative Compound 7 is substituted for dibenzofuran There is a difference depending on the number. Judging from the device data, the linkage of m-phenylene has the effect of improving the efficiency, and the dibenzouran secondary substituent has the effect of significantly improving the life. This is because the energy level (HOMO level, LUMO level, T1 level) of the compound is remarkably changed as the specific substituent is substituted even in the same core, and the difference in the physical properties of the compound is a major factor in improving device performance during device deposition (for example, such as energy balance), suggesting that these different device results can be derived.
이상의 설명은 본 발명을 예시적으로 설명한 것에 불과한 것으로, 본 발명이 속하는 기술분야에서 통상의 지식을 가지는 자라면 본 발명의 본질적인 특성에서 벗어나지 않는 범위에서 다양한 변형이 가능할 것이다. 따라서, 본 명세서에 개시된 실시 예들은 본 발명을 한정하기 위한 것이 아니라 설명하기 위한 것이고, 이러한 실시 예에 의하여 본 발명의 사상과 범위가 한정되는 것은 아니다.The above description is merely illustrative of the present invention, and those skilled in the art to which the present invention pertains may various modifications without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed herein are not intended to limit the present invention but to describe the present invention, and the spirit and scope of the present invention are not limited thereto.
본 발명의 보호범위는 아래의 청구범위에 의하여 해석되어야 하며, 그와 동등한 범위 내에 있는 모든 기술은 본 발명의 권리범위에 포함하는 것으로 해석되어야 할 것이다.The protection scope of the present invention should be interpreted by the following claims, and all the technologies within the equivalent scope should be interpreted as being included in the scope of the present invention.
본 발명에 따르면, 고휘도, 고발광 및 장수명의 우수한 소자특성을 갖는 유기소자를 제조할 수 있어 산업상 이용가능성이 있다.According to the present invention, it is possible to manufacture an organic device having excellent device characteristics of high brightness, high light emission and long life, and there is industrial applicability.

Claims (25)

  1. 제 1전극, 제 2전극, 및 상기 제 1전극과 상기 제 2전극 사이에 형성된 유기물층을 포함하는 유기전기소자에 있어서, 상기 유기물층은, 발광층을 포함하고, 상기 발광층은 인광성 발광층으로서 화학식 1로 표시되는 제 1호스트 화합물 및 화학식 2로 표시되는 제 2호스트 화합물을 포함하는 것을 특징으로 하는 유기전기소자An organic electric device comprising a first electrode, a second electrode, and an organic material layer formed between the first electrode and the second electrode, wherein the organic material layer includes a light emitting layer, and the light emitting layer is represented by Formula 1 as a phosphorescent light emitting layer. An organic electric device comprising the first host compound to be displayed and the second host compound represented by the formula (2)
    화학식 1 화학식 2Chemical Formula 1 Chemical Formula 2
    Figure PCTKR2019003116-appb-I000240
    Figure PCTKR2019003116-appb-I000240
    {상기 화학식 1 및 화학식 2에서,{In Formula 1 and Formula 2,
    1) Ar1, Ar2, Ar3, Ar4, Ar5, Ar6 및 Ar7은 서로 독립적으로 수소; 중수소; 할로겐; C6-C60의 아릴기; 플루오렌일기; O, N, S, Si, P 중 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; C1-C50의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C1-C30의 알콕실기; C6-C30의 아릴옥시기; 및 -L'-N(Ra)(Rb); 로 이루어진 군에서 선택되고, 또는 Ar1 및 Ar2, 또는 Ar3 및 Ar4는 서로 결합하여 고리를 형성할 수 있고,1) Ar 1 , Ar 2 , Ar 3 , Ar 4 , Ar 5 , Ar 6 and Ar 7 are each independently hydrogen; heavy hydrogen; halogen; C 6 -C 60 aryl group; Fluorenyl group; C 2 -C 60 heterocyclic group including at least one hetero atom of O, N, S, Si, P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; C 6 -C 30 aryloxy group; And -L'-N (R a ) (R b ); Or Ar 1 and Ar 2 , or Ar 3 and Ar 4 may be bonded to each other to form a ring,
    2) 상기 L'은 단일결합; C6-C60의 아릴렌기; 플루오렌일렌기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; 및 C2-C60의 헤테로고리기;로 이루어진 군에서 선택되며, 상기 Ra 및 Rb은 서로 독립적으로 C6-C60의 아릴기; 플루오렌일기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; 및 O, N, S, Si 및 P 중 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기;로 이루어진 군에서 선택되고, 2) L 'is a single bond; C 6 -C 60 arylene group; Fluorenylene groups; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And a C 2 -C 60 heterocyclic group; selected from the group consisting of R a and R b independently of each other an C 6 -C 60 aryl group; Fluorenyl group; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And a C 2 -C 60 heterocyclic group including at least one heteroatom of O, N, S, Si, and P, and
    3) L1, L2, L3, L4 및 L5은 서로 독립적으로 단일결합; C6~C60의 아릴렌기; 플루오렌일렌기; 또는 O, N, S, Si 및 P 중 적어도 하나의 헤테로원자를 포함하는 C2~C60의 헤테로아릴렌기;이고,3) L 1 , L 2 , L 3 , L 4 and L 5 are each independently a single bond; C 6 ~ C 60 arylene group; Fluorenylene groups; Or a C 2 to C 60 heteroarylene group including at least one heteroatom of O, N, S, Si, and P;
    4) X1은 O 또는 S이고, 4) X 1 is O or S,
    5) 고리 A 및 B는 서로 독립적으로 C6~C20의 아릴기; 또는 C2~C20의 헤테로고리기;이고,5) Rings A and B are each independently of the other C 6 ~ C 20 aryl group; Or a C 2 -C 20 heterocyclic group,
    6) X2는 단일결합, N-L6-Ar7, O, S 또는 CR'R"이고, 6) X 2 is a single bond, NL 6 -Ar 7 , O, S or CR'R ",
    R' 및 R"는 서로 독립적으로 수소; C6~C60의 아릴기; 플루오렌일기; C3~C60의 헤테로고리기; 또는 C1~C50의 알킬기; 이며, R'과 R"은 서로 결합하여 스파이로 고리를 형성할 수 있고,R 'and R "are each independently hydrogen; C 6 ~ C 60 aryl group; Fluorenyl group; C 3 ~ C 60 Heterocyclic group; or C 1 ~ C 50 Alkyl group; R' and R" Can combine with each other to form a ring as a spy,
    7) x는 0~4의 정수이고, y는 0~3의 정수이고, Rc 및 Rd는 서로 독립적으로 수소; C6~C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P 중 적어도 하나의 헤테로원자를 포함하는 C2~C60의 헤테로고리기; C3~C60의 지방족고리와 C6~C60의 방향족고리의 융합고리기; C1~C50의 알킬기; C2~C20의 알켄일기; C2~C20의 알킨일기; C1~C30의 알콕실기; C6~C30의 아릴옥시기; 및 -L'-N(Ra)(Rb); 로 이루어진 군에서 선택되고,7) x is an integer of 0-4, y is an integer of 0-3, R c and R d are each independently hydrogen; C 6 ~ C 60 Aryl group; Fluorenyl group; C 2 ~ C 60 heterocyclic group containing at least one heteroatom of O, N, S, Si and P; Fused ring group of an aromatic ring of C 3 ~ C 60 of aliphatic rings and C 6 ~ C 60; C 1 ~ C 50 Alkyl group; C 2 ~ C 20 Alkenyl group; Alkynyl groups of C 2 to C 20 ; C 1 -C 30 alkoxyl group; C 6 -C 30 aryloxy group; And -L'-N (R a ) (R b ); Is selected from the group consisting of
    8) 여기서, 상기 아릴기, 플루오렌닐기, 아릴렌기, 헤테로고리기, 플루오렌일렌기, 융합고리기, 알킬기, 알케닐기, 알콕시기 및 아릴옥시기는 각각 중수소; 할로겐; 실란기; 실록산기; 붕소기; 게르마늄기; 시아노기; 니트로기; C1-C20의 알킬싸이오기; C1-C20의 알콕실기; C1-C20의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C6-C20의 아릴기; 중수소로 치환된 C6-C20의 아릴기; 플루오렌일기; C2-C20의 헤테로고리기; C3-C20의 시클로알킬기; C7-C20의 아릴알킬기 및 C8-C20의 아릴알켄일기;로 이루어진 군에서 선택된 하나 이상의 치환기로 더욱 치환될 수 있으며, 또한 이들 치환기들은 서로 결합하여 고리를 형성할 수도 있으며, 여기서 '고리'란 C3-C60의 지방족고리 또는 C6-C60의 방향족고리 또는 C2-C60의 헤테로고리 또는 이들의 조합으로 이루어진 융합 고리를 말하며, 포화 또는 불포화 고리를 포함한다.}8) wherein the aryl group, fluorenyl group, arylene group, heterocyclic group, fluorenylene group, fused ring group, alkyl group, alkenyl group, alkoxy group and aryloxy group are each deuterium; halogen; Silane group; Siloxane groups; Boron group; Germanium group; Cyano group; Nitro group; Import alkylthio of C 1 -C 20; An alkoxyl group of C 1 -C 20 ; An alkyl group of C 1 -C 20 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; Aryl group of C 6 -C 20 ; C 6 -C 20 aryl group substituted with deuterium; Fluorenyl group; C 2 -C 20 heterocyclic group; A cycloalkyl group of C 3 -C 20 ; C 7 -C 20 arylalkyl group and C 8 -C 20 arylalkenyl group; may be further substituted with one or more substituents selected from the group consisting of, these substituents may be bonded to each other to form a ring, wherein ' Ring 'means a fused ring consisting of an aliphatic ring of C 3 -C 60 or an aromatic ring of C 6 -C 60 or a hetero ring of C 2 -C 60 or a combination thereof, and includes a saturated or unsaturated ring.}
  2. 제 1항에 있어서, 상기 화학식 1에서 상기 A 및 B가 서로 독립적으로 하기 화학식 a-1 내지 화학식 a-7로 이루어진 군에서 선택되는 어느 하나인 것을 특징으로 하는 유기전기소자The organic electroluminescence device according to claim 1, wherein in Formula 1, A and B are each independently selected from the group consisting of Formula a-1 to Formula a-7.
    화학식a-1 화학식 a-2 화학식 a-3 화학식 a-4   Chemical Formula a-1 Chemical Formula a-2 Chemical Formula a-3 Chemical Formula a-4
    Figure PCTKR2019003116-appb-I000241
    Figure PCTKR2019003116-appb-I000241
    화학식 a-5 화학식 a-6 화학식 a-7       Chemical Formula a-5 Chemical Formula a-6 Chemical Formula a-7
    Figure PCTKR2019003116-appb-I000242
    Figure PCTKR2019003116-appb-I000242
    {상기 화학식 a-1 내지 화학식 a-7에서,{In Chemical Formula a-1 to Chemical Formula a-7,
    Z1 내지 Z48은 서로 독립적으로 CRc 또는 N이고,Z 1 to Z 48 are independently of each other CR c or N,
    단, L1 내지 L3에 결합하고 있는 Z1 내지 Z48은 탄소(C)이며,Provided that Z 1 to Z 48 bonded to L 1 to L 3 are carbon (C),
    Rc는 상기 청구항 1에서 Ra의 정의와 동일하고,R c is the same as the definition of R a in claim 1,
    *는 축합되는 위치를 나타낸다.}* Indicates the location of condensation}
  3. 제 1항에 있어서, 상기 화학식 1 또는 화학식 2에서 상기 L1 내지 L5가 하기 화학식 b-1 내지 b-13 중에 어느 하나로 표시되는 것을 특징으로 하는 유기전기소자The organic electric device of claim 1, wherein in Formula 1 or Formula 2, L 1 to L 5 are represented by any one of Formulas b-1 to b-13.
    화학식 b-1 화학식 b-2 화학식 b-3 화학식 b-4 화학식 b-5 화학식 b-6  Chemical Formula b-1 Chemical Formula b-2 Chemical Formula b-3 Chemical Formula b-4 Chemical Formula b-5 Chemical Formula b-6
    Figure PCTKR2019003116-appb-I000243
    Figure PCTKR2019003116-appb-I000243
    화학식 b-7 화학식 b-8 화학식 b-9 화학식 b-10  Chemical Formula b-7 Chemical Formula b-8 Chemical Formula b-9 Chemical Formula b-10
    Figure PCTKR2019003116-appb-I000244
    Figure PCTKR2019003116-appb-I000244
    화학식 b-11 화학식 b-12 화학식 b-13        Chemical Formula b-11 Chemical Formula b-12 Chemical Formula b-13
    Figure PCTKR2019003116-appb-I000245
    Figure PCTKR2019003116-appb-I000245
    {상기 화학식 b-1 내지 화학식 b-13에서,{In Chemical Formula b-1 to Chemical Formula b-13,
    Y는 N-L5-Ar7, O, S 또는 CRdRe이고,Y is NL 5 -Ar 7 , O, S or CR d R e ,
    L5은 상기 청구항 1에서 L3의 정의와 동일하고,L 5 is the same as the definition of L 3 in claim 1,
    Ar7은 상기 청구항 1에서 Ar5의 정의와 동일하고,Ar 7 is the same as defined in Ar 5 in claim 1,
    Rd 및 Re는 상기 청구항 1에서 Ra의 정의와 동일하며, R d and R e are the same as the definition of R a in claim 1,
    a, c, d 및 e은 서로 독립적으로 0 내지 4의 정수이고, b는 0 내지 6의 정수이고,a, c, d and e are each independently an integer from 0 to 4, b is an integer from 0 to 6,
    f 및 g은 서로 독립적으로 0 내지 3의 정수이고, h는 0 내지 2의 정수이며, i는 0 또는 1의 정수이고,f and g are each independently an integer of 0 to 3, h is an integer of 0 to 2, i is an integer of 0 or 1,
    R1, R2 및 R3은 서로 독립적으로 수소; 중수소; 삼중수소; 할로겐; 시아노기; 나이트로기; C6-C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P로 이루어진 군에서 선택된 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; C1-C50의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C1-C30의 알콕실기; C6-C30의 아릴옥시기; 및 -La-N(Rf)(Rg);로 이루어진 군에서 선택되고, 또는 상기 a, b, c, d, e, f 및 g가 2 이상인 경우, 및 h가 2 이상인 경우는 각각 복수로서 서로 동일하거나 상이하며 복수의 R1끼리 혹은 복수의 R2끼리 혹은 복수의 R3끼리 혹은 이웃한 R1과 R2 또는 R2과 R3은 서로 결합하여 방향족 고리 또는 헤테로방향족 고리를 형성할 수 있고,R 1 , R 2 and R 3 are independently of each other hydrogen; heavy hydrogen; Tritium; halogen; Cyano group; Nitro group; C 6 -C 60 aryl group; Fluorenyl group; C 2 -C 60 heterocyclic group including at least one heteroatom selected from the group consisting of O, N, S, Si and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; C 6 -C 30 aryloxy group; And -L a -N (R f ) (R g ); or when a, b, c, d, e, f and g are 2 or more, and h is 2 or more, respectively A plurality of R1's are the same as or different from each other, and a plurality of R 1 's or a plurality of R 2' s or a plurality of R 3 's or neighboring R 1 and R 2 or R 2 and R 3 combine with each other to form an aromatic ring or a heteroaromatic ring Can do it,
    여기서 상기 La는 단일결합; C6-C60의 아릴렌기; 플루오렌일렌기; O, N, S, Si 및 P 중 적어도 하나의 헤테로 원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족 고리의 융합고리기; 및 C3-C60의 지방족 탄화수소기;로 이루어진 군에서 선택되며, 상기 Rf 및 Rg는 서로 독립적으로 C6-C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P로 이루어진 군에서 선택된 적어도 하나의 헤테로 원자를 포함하는 C2-C60의 헤테로고리기; 및 C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기;로 이루어진 군에서 선택되고,Wherein L a is a single bond; C 6 -C 60 arylene group; Fluorenylene groups; A C 2 -C 60 heterocyclic group comprising at least one hetero atom of O, N, S, Si, and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; And an aliphatic hydrocarbon group of C 3 -C 60 ; wherein R f and R g are independently of each other an aryl group of C 6 -C 60 ; Fluorenyl group; C 2 -C 60 heterocyclic group including at least one hetero atom selected from the group consisting of O, N, S, Si and P; And a fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 .
    Z49, Z50 및 Z51은 서로 독립적으로 CRh 또는 N이고, Z49, Z50 및 Z51 중 적어도 하나는 N이며,Z 49 , Z 50 and Z 51 are independently of each other CR h or N, and at least one of Z 49 , Z 50 and Z 51 is N,
    Rh은 수소; 중수소; 삼중수소; 할로겐; 시아노기; 나이트로기; C6-C60의 아릴기; 플루오렌일기; O, N, S, Si 및 P로 이루어진 군에서 선택된 적어도 하나의 헤테로원자를 포함하는 C2-C60의 헤테로고리기; C3-C60의 지방족고리와 C6-C60의 방향족고리의 융합고리기; C1-C50의 알킬기; C2-C20의 알켄일기; C2-C20의 알킨일기; C1-C30의 알콕실기; 및 C6-C30의 아릴옥시기;로 이루어진 군에서 선택되고, 이웃한 R1과 Rh는 서로 결합하여 방향족 고리 또는 헤테로방향족 고리를 형성할 수 있다.}R h is hydrogen; heavy hydrogen; Tritium; halogen; Cyano group; Nitro group; C 6 -C 60 aryl group; Fluorenyl group; C 2 -C 60 heterocyclic group including at least one heteroatom selected from the group consisting of O, N, S, Si and P; A fused ring group of an aliphatic ring of C 3 -C 60 and an aromatic ring of C 6 -C 60 ; An alkyl group of C 1 -C 50 ; Alkenyl groups of C 2 -C 20 ; An alkynyl group of C 2 -C 20 ; An alkoxyl group of C 1 -C 30 ; And an C 6 -C 30 aryloxy group; adjacent R 1 and R h may be bonded to each other to form an aromatic ring or a heteroaromatic ring.}
  4. 제 1항에 있어서, 상기 화학식 1로 나타내는 제 1호스트 화합물이 하기 화학식 3 내지 화학식 5 중 어느 하나로 표시되는 것을 특징으로 하는 유기전기소자The organic electrical device of claim 1, wherein the first host compound represented by Chemical Formula 1 is represented by one of the following Chemical Formulas 3 to 5.
    화학식 3Formula 3
    Figure PCTKR2019003116-appb-I000246
    Figure PCTKR2019003116-appb-I000246
    화학식 4Formula 4
    Figure PCTKR2019003116-appb-I000247
    Figure PCTKR2019003116-appb-I000247
    화학식 5Formula 5
    Figure PCTKR2019003116-appb-I000248
    Figure PCTKR2019003116-appb-I000248
    {상기 화학식 3 내지 화학식 5에서,{In Formula 3 to Formula 5,
    X1, A, B, L1, L2, Ar2, Ar3 및 Ar4는 상기 청구항 1에서 정의된 바와 같고,X 1 , A, B, L 1 , L 2 , Ar 2 , Ar 3 and Ar 4 are as defined in claim 1 above,
    C 및 D는 상기 청구항 1에서 A의 정의와 동일하고,C and D are the same as the definition of A in claim 1,
    W는 N-L7-Ar8, O, S, 또는 CRiRj이고,W is NL 7 -Ar 8 , O, S, or CR i R j ,
    L6 및 L7은 상기 청구항 1에서 L4의 정의와 동일하고,L 6 and L 7 are the same as defined in L 4 in claim 1,
    Ar8은 상기 청구항 1에서 Ar5의 정의와 동일하고,Ar 8 is the same as defined in Ar 5 in claim 1,
    Ri 및 Rj는 상기 청구항 1에서 Ra의 정의와 동일하며,R i and R j are the same as the definition of R a in claim 1,
    2개의 Ar8은 각각 동일하거나 상이하고, 2개의 W는 각각 동일하거나 상이하고, 2개의 C는 각각 동일하거나 상이하고, 2개의 D는 각각 동일하거나 상이하다.}Two Ar 8 are each the same or different, two W are each the same or different, two C are the same or different, and two D are the same or different.
  5. 제 1항에 있어서, 상기 화학식 1로 나타내는 제 1호스트 화합물이 하기 화학식 6으로 표시되는 것을 특징으로 하는 유기전기소자The organic electroluminescence device according to claim 1, wherein the first host compound represented by Chemical Formula 1 is represented by the following Chemical Formula 6.
    화학식 6Formula 6
    Figure PCTKR2019003116-appb-I000249
    Figure PCTKR2019003116-appb-I000249
    {상기 화학식 6에서, {In Chemical Formula 6,
    X1, Ar2, Ar3 및 Ar4는 상기 청구항 1에서 정의된 바와 같고,X 1 , Ar 2 , Ar 3 and Ar 4 are as defined in claim 1 above,
    Z1, Z2, Z3 및 Z4는 서로 독립적으로 CRc 또는 N이고,Z 1 , Z 2 , Z 3 and Z 4 are independently of each other CR c or N,
    단, N에 결합하고 있는 Z1 내지 Z4는 탄소(C)이며,However, Z 1 to Z 4 bonded to N are carbon (C),
    Rc는 상기 청구항 1에서 Ra의 정의와 동일하고,R c is the same as the definition of R a in claim 1,
    W는 N-L7-Ar8, O, S, 또는 CRiRj이고,W is NL 7 -Ar 8 , O, S, or CR i R j ,
    L7은 상기 청구항 1에서 L4의 정의와 동일하고,L 7 is the same as the definition of L 4 in claim 1,
    Ar8은 상기 청구항 1에서 Ar5의 정의와 동일하고,Ar 8 is the same as defined in Ar 5 in claim 1,
    Ri 및 Rj는 상기 청구항 1에서 Ra의 정의와 동일하다.}R i and R j are identical to the definition of R a in claim 1 above.
  6. 제 5항에 있어서, 상기 화학식 1로 나타내는 제 1호스트 화합물이 하기 화학식 7, 화학식 8 또는 화학식 9로 표시되는 것을 특징으로 하는 유기전기소자The organic electric device of claim 5, wherein the first host compound represented by Chemical Formula 1 is represented by the following Chemical Formula 7, Formula 8, or Formula 9.
    화학식 7Formula 7
    Figure PCTKR2019003116-appb-I000250
    Figure PCTKR2019003116-appb-I000250
    화학식 8Formula 8
    Figure PCTKR2019003116-appb-I000251
    Figure PCTKR2019003116-appb-I000251
    화학식 9Formula 9
    Figure PCTKR2019003116-appb-I000252
    Figure PCTKR2019003116-appb-I000252
    {상기 화학식 7 내지 화학식 9에서, {In Formula 7 to Formula 9,
    X1, Ar2, Ar3 및 Ar4는 상기 청구항 1에서 정의된 바와 같고,X 1 , Ar 2 , Ar 3 and Ar 4 are as defined in claim 1 above,
    Z1, Z2, Z3, Z4, 및 W는 상기 청구항 5에서 정의된 바와 같다.}Z 1 , Z 2 , Z 3 , Z 4 , and W are as defined in claim 5 above.
  7. 제 1항에 있어서, 상기 화학식 2로 나타내는 제 2 호스트 화합물이 하기 화학식 10 내지 화학식 13 중 어느 하나로 표시되는 것을 특징으로 하는 유기전기소자The organic electric device of claim 1, wherein the second host compound represented by Chemical Formula 2 is represented by one of the following Chemical Formulas 10 to 13.
    화학식 10 화학식 11    Formula 10 Formula 11
    Figure PCTKR2019003116-appb-I000253
    Figure PCTKR2019003116-appb-I000253
    화학식 12 화학식 13    Chemical Formula 12 Chemical Formula 13
    Figure PCTKR2019003116-appb-I000254
    Figure PCTKR2019003116-appb-I000254
    {상기 화학식 10 내지 화학식 13에서, {In Formula 10 to Formula 13,
    X2, L3, L4, L5, Ar5, Ar6, Rc, Rd, x, y은 상기 청구항 1에서 정의된 바와 같다.}X 2 , L 3 , L 4 , L 5 , Ar 5 , Ar 6 , R c , R d , x, y are as defined in claim 1 above.
  8. 제 1항에 있어서, 상기 화학식 2로 나타내는 제 2호스트 화합물이 하기 화학식 14로 표시되는 것을 특징으로 하는 유기전기소자The organic electroluminescence device according to claim 1, wherein the second host compound represented by Chemical Formula 2 is represented by the following Chemical Formula 14.
    화학식 14Formula 14
    Figure PCTKR2019003116-appb-I000255
    Figure PCTKR2019003116-appb-I000255
    {상기 화학식 14에서,{In Formula 14,
    1) X2, L3, L4, L5, Ar5, Rc, Rd, x, y는 상기 청구항 1에서 정의된 바와 같고,1) X 2 , L 3 , L 4 , L 5 , Ar 5 , R c , R d , x, y are as defined in claim 1 above,
    2) X3는 상기 청구항 1에서 정의한 X2의 정의와 동일하고,2) X 3 is the same as the definition of X 2 defined in claim 1,
    3) Re 및 Rf는 상기 청구항 1에서 정의한 Rd 및 Rc의 정의와 동일하며,3) R e and R f are the same as the definition of R d and R c defined in claim 1,
    4) n은 y와 m은 x의 정의와 동일하다.}4) n is the same as y and m is the definition of x}
  9. 제 1항에 있어서, 상기 화학식 2로 나타내는 제 2호스트 화합물이 하기 화학식 15 내지 화학식 18로 표시되는 것을 특징으로 하는 유기전기소자The organic electrical device of claim 1, wherein the second host compound represented by Chemical Formula 2 is represented by the following Chemical Formulas 15 to 18:
    화학식 15 화학식 16 Formula 15 Formula 16
    Figure PCTKR2019003116-appb-I000256
    Figure PCTKR2019003116-appb-I000256
    화학식 17 화학식 18
    Figure PCTKR2019003116-appb-I000257
    Formula 17 Formula 18
    Figure PCTKR2019003116-appb-I000257
    {상기 화학식 15 내지 화학식 18에서,{In Formula 15 to Formula 18,
    1) X2, L3, L4, L5, Ar5, Rc, Rd, x, y는 상기 청구항 1에서 정의된 바와 같고,1) X 2 , L 3 , L 4 , L 5 , Ar 5 , R c , R d , x, y are as defined in claim 1 above,
    2) X3는 상기 청구항 1에서 정의한 X2의 정의와 동일하고,2) X 3 is the same as the definition of X 2 defined in claim 1,
    3) Re 및 Rf는 상기 청구항 1에서 정의한 Rd 및 Rc의 정의와 동일하며,3) R e and R f are the same as the definition of R d and R c defined in claim 1,
    4) n은 y와 m은 x의 정의와 동일하다.}4) n is the same as y and m is the definition of x}
  10. 제 1항에 있어서, 상기 화학식 1로 나타내는 제 1 호스트 화합물이 하기 화합물 1-1 내지 화합물 1-175 중 어느 하나인 것을 특징으로 하는 유기전기소자The organic electronic device of claim 1, wherein the first host compound represented by Chemical Formula 1 is any one of the following Compounds 1-1 to 1-175:
    Figure PCTKR2019003116-appb-I000258
    Figure PCTKR2019003116-appb-I000258
    Figure PCTKR2019003116-appb-I000259
    Figure PCTKR2019003116-appb-I000259
    Figure PCTKR2019003116-appb-I000260
    Figure PCTKR2019003116-appb-I000260
    Figure PCTKR2019003116-appb-I000261
    Figure PCTKR2019003116-appb-I000261
    Figure PCTKR2019003116-appb-I000262
    Figure PCTKR2019003116-appb-I000262
    Figure PCTKR2019003116-appb-I000263
    Figure PCTKR2019003116-appb-I000263
    Figure PCTKR2019003116-appb-I000264
    Figure PCTKR2019003116-appb-I000264
    Figure PCTKR2019003116-appb-I000265
    Figure PCTKR2019003116-appb-I000265
    Figure PCTKR2019003116-appb-I000266
    Figure PCTKR2019003116-appb-I000266
    Figure PCTKR2019003116-appb-I000267
    Figure PCTKR2019003116-appb-I000267
    Figure PCTKR2019003116-appb-I000268
    Figure PCTKR2019003116-appb-I000268
    Figure PCTKR2019003116-appb-I000269
    Figure PCTKR2019003116-appb-I000269
    Figure PCTKR2019003116-appb-I000270
    Figure PCTKR2019003116-appb-I000270
    Figure PCTKR2019003116-appb-I000271
    Figure PCTKR2019003116-appb-I000271
    Figure PCTKR2019003116-appb-I000272
    Figure PCTKR2019003116-appb-I000272
    Figure PCTKR2019003116-appb-I000273
    Figure PCTKR2019003116-appb-I000273
    Figure PCTKR2019003116-appb-I000274
    Figure PCTKR2019003116-appb-I000274
    Figure PCTKR2019003116-appb-I000275
    Figure PCTKR2019003116-appb-I000275
    Figure PCTKR2019003116-appb-I000276
    Figure PCTKR2019003116-appb-I000276
    Figure PCTKR2019003116-appb-I000277
    Figure PCTKR2019003116-appb-I000277
    Figure PCTKR2019003116-appb-I000278
    Figure PCTKR2019003116-appb-I000278
    Figure PCTKR2019003116-appb-I000279
    Figure PCTKR2019003116-appb-I000279
    Figure PCTKR2019003116-appb-I000280
    Figure PCTKR2019003116-appb-I000280
    Figure PCTKR2019003116-appb-I000281
    Figure PCTKR2019003116-appb-I000281
    Figure PCTKR2019003116-appb-I000282
    Figure PCTKR2019003116-appb-I000282
    Figure PCTKR2019003116-appb-I000283
    Figure PCTKR2019003116-appb-I000283
    Figure PCTKR2019003116-appb-I000284
    Figure PCTKR2019003116-appb-I000284
    Figure PCTKR2019003116-appb-I000285
    Figure PCTKR2019003116-appb-I000285
    Figure PCTKR2019003116-appb-I000286
    Figure PCTKR2019003116-appb-I000286
    Figure PCTKR2019003116-appb-I000287
    Figure PCTKR2019003116-appb-I000287
    Figure PCTKR2019003116-appb-I000288
    Figure PCTKR2019003116-appb-I000288
    Figure PCTKR2019003116-appb-I000289
    Figure PCTKR2019003116-appb-I000289
    Figure PCTKR2019003116-appb-I000290
    Figure PCTKR2019003116-appb-I000290
    Figure PCTKR2019003116-appb-I000291
    Figure PCTKR2019003116-appb-I000291
    Figure PCTKR2019003116-appb-I000292
    Figure PCTKR2019003116-appb-I000292
  11. 제 1항에 있어서, 상기 화학식 2로 나타내는 제 2호스트 화합물이 하기 화합물 중 어느 하나인 것을 특징으로 하는 유기전기소자The organic electric device according to claim 1, wherein the second host compound represented by Chemical Formula 2 is any one of the following compounds:
    Figure PCTKR2019003116-appb-I000293
    Figure PCTKR2019003116-appb-I000293
    Figure PCTKR2019003116-appb-I000294
    Figure PCTKR2019003116-appb-I000294
    Figure PCTKR2019003116-appb-I000295
    Figure PCTKR2019003116-appb-I000295
    Figure PCTKR2019003116-appb-I000296
    Figure PCTKR2019003116-appb-I000296
    Figure PCTKR2019003116-appb-I000297
    Figure PCTKR2019003116-appb-I000297
    Figure PCTKR2019003116-appb-I000298
    Figure PCTKR2019003116-appb-I000298
    Figure PCTKR2019003116-appb-I000299
    Figure PCTKR2019003116-appb-I000299
    Figure PCTKR2019003116-appb-I000300
    Figure PCTKR2019003116-appb-I000300
    Figure PCTKR2019003116-appb-I000301
    Figure PCTKR2019003116-appb-I000301
    Figure PCTKR2019003116-appb-I000302
    Figure PCTKR2019003116-appb-I000302
    Figure PCTKR2019003116-appb-I000303
    Figure PCTKR2019003116-appb-I000303
    Figure PCTKR2019003116-appb-I000304
    Figure PCTKR2019003116-appb-I000304
    Figure PCTKR2019003116-appb-I000305
    Figure PCTKR2019003116-appb-I000305
    Figure PCTKR2019003116-appb-I000306
    Figure PCTKR2019003116-appb-I000306
    Figure PCTKR2019003116-appb-I000307
    Figure PCTKR2019003116-appb-I000307
    Figure PCTKR2019003116-appb-I000308
    Figure PCTKR2019003116-appb-I000308
    Figure PCTKR2019003116-appb-I000309
    Figure PCTKR2019003116-appb-I000309
    Figure PCTKR2019003116-appb-I000310
    Figure PCTKR2019003116-appb-I000310
    Figure PCTKR2019003116-appb-I000311
    Figure PCTKR2019003116-appb-I000311
    Figure PCTKR2019003116-appb-I000312
    Figure PCTKR2019003116-appb-I000312
    Figure PCTKR2019003116-appb-I000313
    Figure PCTKR2019003116-appb-I000313
    Figure PCTKR2019003116-appb-I000314
    Figure PCTKR2019003116-appb-I000314
    Figure PCTKR2019003116-appb-I000315
    Figure PCTKR2019003116-appb-I000315
    Figure PCTKR2019003116-appb-I000316
    Figure PCTKR2019003116-appb-I000316
    Figure PCTKR2019003116-appb-I000317
    Figure PCTKR2019003116-appb-I000317
    Figure PCTKR2019003116-appb-I000318
    Figure PCTKR2019003116-appb-I000318
    Figure PCTKR2019003116-appb-I000319
    Figure PCTKR2019003116-appb-I000319
    Figure PCTKR2019003116-appb-I000320
    Figure PCTKR2019003116-appb-I000320
    Figure PCTKR2019003116-appb-I000321
    Figure PCTKR2019003116-appb-I000321
    Figure PCTKR2019003116-appb-I000322
    Figure PCTKR2019003116-appb-I000322
    Figure PCTKR2019003116-appb-I000323
    Figure PCTKR2019003116-appb-I000323
    Figure PCTKR2019003116-appb-I000324
    Figure PCTKR2019003116-appb-I000324
    Figure PCTKR2019003116-appb-I000325
    Figure PCTKR2019003116-appb-I000325
    Figure PCTKR2019003116-appb-I000326
    Figure PCTKR2019003116-appb-I000326
    Figure PCTKR2019003116-appb-I000327
    Figure PCTKR2019003116-appb-I000327
    Figure PCTKR2019003116-appb-I000328
    Figure PCTKR2019003116-appb-I000328
    Figure PCTKR2019003116-appb-I000329
    Figure PCTKR2019003116-appb-I000329
    Figure PCTKR2019003116-appb-I000330
    Figure PCTKR2019003116-appb-I000330
    Figure PCTKR2019003116-appb-I000331
    Figure PCTKR2019003116-appb-I000331
    Figure PCTKR2019003116-appb-I000332
    Figure PCTKR2019003116-appb-I000332
    Figure PCTKR2019003116-appb-I000333
    Figure PCTKR2019003116-appb-I000333
    Figure PCTKR2019003116-appb-I000334
    Figure PCTKR2019003116-appb-I000334
    Figure PCTKR2019003116-appb-I000335
    Figure PCTKR2019003116-appb-I000335
    Figure PCTKR2019003116-appb-I000336
    Figure PCTKR2019003116-appb-I000336
    Figure PCTKR2019003116-appb-I000337
    Figure PCTKR2019003116-appb-I000337
    Figure PCTKR2019003116-appb-I000338
    Figure PCTKR2019003116-appb-I000338
    Figure PCTKR2019003116-appb-I000339
    Figure PCTKR2019003116-appb-I000339
    Figure PCTKR2019003116-appb-I000340
    Figure PCTKR2019003116-appb-I000340
    Figure PCTKR2019003116-appb-I000341
    Figure PCTKR2019003116-appb-I000341
    Figure PCTKR2019003116-appb-I000342
    Figure PCTKR2019003116-appb-I000342
    Figure PCTKR2019003116-appb-I000343
    Figure PCTKR2019003116-appb-I000343
    Figure PCTKR2019003116-appb-I000344
    Figure PCTKR2019003116-appb-I000344
    Figure PCTKR2019003116-appb-I000345
    Figure PCTKR2019003116-appb-I000345
    Figure PCTKR2019003116-appb-I000346
    Figure PCTKR2019003116-appb-I000346
    Figure PCTKR2019003116-appb-I000347
    Figure PCTKR2019003116-appb-I000347
    Figure PCTKR2019003116-appb-I000348
    Figure PCTKR2019003116-appb-I000348
    Figure PCTKR2019003116-appb-I000349
    Figure PCTKR2019003116-appb-I000349
    Figure PCTKR2019003116-appb-I000350
    Figure PCTKR2019003116-appb-I000350
    Figure PCTKR2019003116-appb-I000351
    Figure PCTKR2019003116-appb-I000351
    Figure PCTKR2019003116-appb-I000352
    Figure PCTKR2019003116-appb-I000352
    Figure PCTKR2019003116-appb-I000353
    Figure PCTKR2019003116-appb-I000353
    Figure PCTKR2019003116-appb-I000354
    Figure PCTKR2019003116-appb-I000354
    Figure PCTKR2019003116-appb-I000355
    Figure PCTKR2019003116-appb-I000355
    Figure PCTKR2019003116-appb-I000356
    Figure PCTKR2019003116-appb-I000356
    Figure PCTKR2019003116-appb-I000357
    Figure PCTKR2019003116-appb-I000357
    Figure PCTKR2019003116-appb-I000358
    Figure PCTKR2019003116-appb-I000358
    Figure PCTKR2019003116-appb-I000359
    Figure PCTKR2019003116-appb-I000359
    Figure PCTKR2019003116-appb-I000360
    Figure PCTKR2019003116-appb-I000360
    Figure PCTKR2019003116-appb-I000361
    Figure PCTKR2019003116-appb-I000361
    Figure PCTKR2019003116-appb-I000362
    Figure PCTKR2019003116-appb-I000362
    Figure PCTKR2019003116-appb-I000363
    Figure PCTKR2019003116-appb-I000363
    Figure PCTKR2019003116-appb-I000364
    Figure PCTKR2019003116-appb-I000364
    Figure PCTKR2019003116-appb-I000365
    Figure PCTKR2019003116-appb-I000365
    Figure PCTKR2019003116-appb-I000366
    Figure PCTKR2019003116-appb-I000366
    Figure PCTKR2019003116-appb-I000367
    Figure PCTKR2019003116-appb-I000367
    Figure PCTKR2019003116-appb-I000368
    Figure PCTKR2019003116-appb-I000368
    Figure PCTKR2019003116-appb-I000369
    Figure PCTKR2019003116-appb-I000369
    Figure PCTKR2019003116-appb-I000370
    Figure PCTKR2019003116-appb-I000370
    Figure PCTKR2019003116-appb-I000371
    Figure PCTKR2019003116-appb-I000371
    Figure PCTKR2019003116-appb-I000372
    Figure PCTKR2019003116-appb-I000372
    Figure PCTKR2019003116-appb-I000373
    Figure PCTKR2019003116-appb-I000373
    Figure PCTKR2019003116-appb-I000374
    Figure PCTKR2019003116-appb-I000374
    Figure PCTKR2019003116-appb-I000375
    Figure PCTKR2019003116-appb-I000375
    Figure PCTKR2019003116-appb-I000376
    Figure PCTKR2019003116-appb-I000376
    Figure PCTKR2019003116-appb-I000377
    Figure PCTKR2019003116-appb-I000377
    Figure PCTKR2019003116-appb-I000378
    Figure PCTKR2019003116-appb-I000378
    Figure PCTKR2019003116-appb-I000379
    Figure PCTKR2019003116-appb-I000379
  12. 제 1항에 있어서, 제 1전극과 발광층 사이에 1층 이상의 정공수송대역층을 포함하고, 상기 정공수송대역층은 정공수송층, 발광보조층 또는 이 둘을 모두 포함하며, 상기 정공수송대역층이 상기 화학식 1로 표시되는 화합물을 포함하는 것을 특징으로 하는 유기전기소자The semiconductor device of claim 1, further comprising at least one hole transport band layer between the first electrode and the light emitting layer, wherein the hole transport band layer includes a hole transport layer, a light emitting auxiliary layer, or both. An organic electric device comprising the compound represented by Formula 1
  13. 제 1항에 있어서, 상기 화학식 1 및 상기 화학식 2로 나타내는 화합물 1:9 내지 9:1 중 어느 하나의 비율로 혼합되어 발광층에 포함되는 것을 특징으로 하는 유기전기소자The organic electroluminescence device according to claim 1, wherein the compound represented by Chemical Formula 1 and Chemical Formula 2 is mixed in a ratio of any one of 1: 9 to 9: 1 and included in the light emitting layer.
  14. 제 1항에 있어서, 상기 화학식 1 및 상기 화학식 2로 나타내는 화합물 1:9 내지 5:5로 혼합되어 상기 발광층에 포함되는 것을 특징으로 하는 유기전기소자The organic electroluminescence device according to claim 1, wherein the compound represented by Chemical Formula 1 and Chemical Formula 2 is mixed with 1: 9 to 5: 5 and included in the emission layer.
  15. 제 1항에 있어서, 상기 화학식 1 및 상기 화학식 2로 나타내는 화합물 2:8 또는 3:7로 혼합되어 발광층에 포함되는 것을 특징으로 하는 유기전기소자The organic electroluminescence device according to claim 1, wherein the compound represented by Chemical Formula 1 and Chemical Formula 2 is mixed with 2: 8 or 3: 7 and included in the emission layer.
  16. 제 1항에 있어서, 상기 제 1전극과 제 2전극의 일면 중 상기 유기물층과 반대되는 적어도 일면에 형성되는 광효율개선층을 더 포함하는 유기전기소자The organic electronic device of claim 1, further comprising a light efficiency improvement layer formed on at least one surface of the first electrode and the second electrode opposite to the organic material layer.
  17. 제 1항에 있어서, 상기 유기물층은 스핀코팅 공정, 노즐 프린팅 공정, 잉크젯 프린팅 공정, 슬롯코팅 공정, 딥코팅 공정 또는 롤투롤 공정에 의해 형성되는 것을 특징으로 하는 유기전기소자The organic electronic device of claim 1, wherein the organic material layer is formed by a spin coating process, a nozzle printing process, an inkjet printing process, a slot coating process, a dip coating process, or a roll-to-roll process.
  18. 하기 화학식 19로 표시되는 것을 특징으로 하는 화합물Compound represented by the formula (19)
    화학식 19Formula 19
    Figure PCTKR2019003116-appb-I000380
    Figure PCTKR2019003116-appb-I000380
    {상기 화학식 19에서,{In Formula 19,
    A는 하기 화학식 A-1 또는 화학식 A-2이고,A is the following formula A-1 or formula A-2,
    <화학식 A-1> <화학식 A-2><Formula A-1> <Formula A-2>
    Figure PCTKR2019003116-appb-I000381
    Figure PCTKR2019003116-appb-I000382
    이고,
    Figure PCTKR2019003116-appb-I000381
    Figure PCTKR2019003116-appb-I000382
    ego,
    X11 및 X12는 각각 독립적으로 O 또는 S이고,X 11 and X 12 are each independently O or S,
    a', b', c' 및 d'은 각각 독립적으로 0 또는 1이며,a ', b', c 'and d' are each independently 0 or 1,
    Ar11, Ar12, Ar13 및 Ar14는 각각 독리적으로 C6-C18의 아릴기이다.}Ar 11 , Ar 12 , Ar 13 and Ar 14 are each independently a C 6 -C 18 aryl group.}
  19. 제18항에 있어서, 상기 화학식 19로 나타내는 화합물이 하기 화학식 20 또는 화학식 21로 표시되는 것을 특징으로 하는 화합물The compound according to claim 18, wherein the compound represented by Chemical Formula 19 is represented by the following Chemical Formula 20 or Chemical Formula 21.
    <화학식 20> <화학식 21><Formula 20> <Formula 21>
    Figure PCTKR2019003116-appb-I000383
    Figure PCTKR2019003116-appb-I000383
    {상기 화학식 20 및 21에서, X11, X12, a', b', c' 및 d'는 상기 청구항 18에서 정의한 바와 동일하다.}{In Formulas 20 and 21, X 11 , X 12 , a ', b', c 'and d' are the same as defined in claim 18.}
  20. 하기 화학식 22로 표시되는 것을 특징으로 하는 화합물Compound represented by the following formula (22)
    <화학식 22><Formula 22>
    Figure PCTKR2019003116-appb-I000384
    Figure PCTKR2019003116-appb-I000384
    {상기 화학식 22에서,{In Chemical Formula 22,
    A는 하기 화학식 A-1 또는 화학식 A-2이고,A is the following formula A-1 or formula A-2,
    <화학식 A-1> <화학식 A-2><Formula A-1> <Formula A-2>
    Figure PCTKR2019003116-appb-I000385
    Figure PCTKR2019003116-appb-I000386
    이고,
    Figure PCTKR2019003116-appb-I000385
    Figure PCTKR2019003116-appb-I000386
    ego,
    Ar11은 C6-C18의 아릴기이고,Ar 11 is an aryl group of C 6 -C 18 ,
    X11, X12 및 X13은 각각 독립적으로 O 또는 S이고,X 11 , X 12 and X 13 are each independently O or S,
    m' 및 n'은 각각 독립적으로 0 또는 1이고, m 'and n' are each independently 0 or 1,
    a' 및 c'는 각각 독립적으로 0 내지 5 중 어느 하나의 정수이며,a 'and c' are each independently an integer of 0 to 5,
    d'은 0 내지 4 중 어느 하나의 정수를 나타내고,d 'represents the integer of any one of 0-4,
    R21은 C6-C18의 아릴기이고,R 21 is an aryl group of C 6 -C 18 ,
    Ar13 및 Ar14는 각각 독립적으로 C6-C18의 아릴기이다.}Ar 13 and Ar 14 are each independently a C 6 -C 18 aryl group.}
  21. 제20항에 있어서, 상기 화학식 22로 나타내는 화합물이 하기 화학식 23 또는 화학식 24로 표시되는 것을 특징으로 하는 화합물The compound according to claim 20, wherein the compound represented by Chemical Formula 22 is represented by the following Chemical Formula 23 or Chemical Formula 24
    화학식 23 화학식 24Chemical Formula 23 Chemical Formula 24
    Figure PCTKR2019003116-appb-I000387
    Figure PCTKR2019003116-appb-I000387
    {상기 화학식 23 및 24에서, X11, X12, X13, a', c', d', m', n', Ar13, Ar14, R21는 상기 청구항 20에서 정의한 바와 동일하다.}{In Formulas 23 and 24, X 11 , X 12 , X 13 , a ', c', d ', m', n ', Ar 13 , Ar 14 , and R 21 are the same as defined in claim 20. }
  22. 제18항에 있어서, 상기 화학식 19로 나타내는 화합물은 하기 화합물 중 어느 하나인 것을 특징으로 하는 화합물19. The compound of claim 18, wherein the compound represented by Formula 19 is any one of the following compounds:
    Figure PCTKR2019003116-appb-I000388
    Figure PCTKR2019003116-appb-I000388
    Figure PCTKR2019003116-appb-I000389
    Figure PCTKR2019003116-appb-I000389
    Figure PCTKR2019003116-appb-I000390
    Figure PCTKR2019003116-appb-I000390
  23. 제20항에 있어서, 상기 화학식 22로 나타내는 화합물은 하기 화합물 중 어느 하나인 것을 특징으로 하는 화합물The compound of claim 20, wherein the compound represented by Chemical Formula 22 is any one of the following compounds:
    Figure PCTKR2019003116-appb-I000391
    Figure PCTKR2019003116-appb-I000391
    Figure PCTKR2019003116-appb-I000392
    Figure PCTKR2019003116-appb-I000392
    Figure PCTKR2019003116-appb-I000393
    Figure PCTKR2019003116-appb-I000393
    Figure PCTKR2019003116-appb-I000394
    Figure PCTKR2019003116-appb-I000394
  24. 제1항의 유기전기소자를 포함하는 디스플레이장치: 및 상기 디스플레이장치를 구동하는 제어부;를 포함하는 전자 장치An electronic device comprising: a display device comprising the organic electroluminescent element of claim 1 and a controller for driving the display device
  25. 제23항에 있어서, 상기 유기전기소자는 유기전기발광소자, 유기태양전지, 유기감광체, 유기트랜지스터, 및 단색 또는 백색 조명용소자 중 적어도 하나인 것을 특징으로 하는 전자 장치24. The electronic device of claim 23, wherein the organic electronic device is at least one of an organic electroluminescent device, an organic solar cell, an organic photoconductor, an organic transistor, and a monochrome or white lighting device.
PCT/KR2019/003116 2018-03-29 2019-03-18 Compound for organic electric element, organic electric element using same, and electronic device therefor WO2019190101A1 (en)

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