CN109250710A - A kind of amination graphene oxide - Google Patents
A kind of amination graphene oxide Download PDFInfo
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- CN109250710A CN109250710A CN201710570658.XA CN201710570658A CN109250710A CN 109250710 A CN109250710 A CN 109250710A CN 201710570658 A CN201710570658 A CN 201710570658A CN 109250710 A CN109250710 A CN 109250710A
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- C01P2002/00—Crystal-structural characteristics
- C01P2002/80—Crystal-structural characteristics defined by measured data other than those specified in group C01P2002/70
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- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
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Abstract
The present invention provides a kind of amination graphene oxides, and the graphene oxide and ammonia source after being activated by surface hydroxyl obtain after preparing.The present invention activated using surface hydroxyl after graphene oxide as raw material, be directly added into ammonia source carry out it is amination modified, after the hydroxyl of surface of graphene oxide is activated, carbon-oxygen bond becomes easy fracture, the lamellar structure of graphene oxide can be thus kept well, keep primary characteristic.
Description
Technical field
The invention belongs to modified graphene technical field, it is related to a kind of amidized graphene oxide, more particularly to a kind of
The graphene oxide of surface amination.
Background technique
Graphene (Graphene) is a kind of new material of individual layer laminated structure being made of carbon atom.It is one kind by carbon
Atom forms the flat film that hexangle type is in honeycomb lattice, the two-dimensional material of only one carbon atom thickness with sp2 hybridized orbit.
As a kind of two dimensional crystal of only one layer of atomic thickness being made of carbon atom, it is at present into most thin in application field
Material and most tough material;Graphene has huge theoretical specific surface area simultaneously, and physicochemical properties are stablized, can be in senior engineer
Make to keep good structural stability under voltage and high current fast charging and discharging;Graphene also has excellent electric conductivity, can be with
Internal resistance is reduced, the cyclical stability of supercapacitor is improved;In addition, graphene be almost it is fully transparent, only absorb 2.3%
Light.And it is very fine and close, even the smallest gas atom (helium atom) can not also penetrate.These features are very suitable to it
As the raw material of transparent electron product, such as transparent touch display screen, luminescent screen and solar panel.Just because of graphene
With above-mentioned many excellent physical chemical property, in energy storage material, environmental project, sensing sensitive aspect is widely used,
Referred to as " dark fund " or " king of new material ", and potential application prospect is vast, and it is burnt to have become global concern at present
Point and research hotspot.
However in practical applications, there is also many problems and restraining factors for graphene, while in order to cope with more
It is widely applied demand, so the functional modification of graphene is just particularly important in its application.And graphene oxide
With planar structure similar with graphene, but a large amount of oxygen-containing functional group is contained on surface, such as hydroxyl, carboxyl and epoxy group,
So graphene oxide has activity more higher than graphene, can preferably apply in some aqueous composite modifications
In.Amination modified is exactly one of them, and amination modified graphene is that amino group is connected with graphene using covalent bond
Modified graphene, since the groups such as amino and epoxy group have good chemical bond, can with the materials such as epoxy resin into
Row is compound, is applied to the fields such as coating, so graphene can be introduced into composite material.
Traditional amination graphene oxide preparation method is generally divided into two kinds, and one is directly by graphene oxide and ammonia
Source progress is compound, but if although using the modified structure that can keep graphene oxide well of non-covalent bond, effect
Power is weak, unstable, limits more;And use that although covalent modification opposing force is strong, stablizes, due to graphene oxide
Steric hindrance is larger, so directly harsh to surface of graphene oxide modified condition, the reaction time is long, and graphene oxide exists
Curling easily occurs under exacting terms, reunites, destroys its lamellar structure, its original characteristic is caused to be destroyed.
Another kind be graphene surface is activated, then with amino carry out it is compound.But usually it is also required to higher temperature
Degree and longer reaction time, inevitably causes the curling and reunion of graphene, influence the performance of graphene itself.
Therefore, how to surface of graphene oxide stable modification, but its lamellar structure can not be destroyed, it has also become neck
One of many forward position scientific research personnel urgent problems to be solved in domain.
Summary of the invention
In view of this, being a kind of the technical problem to be solved in the present invention is that provide a kind of amination graphene oxide
The graphene oxide of surface amination, the graphene oxide after the present invention uses surface hydroxyl to activate change for raw material progress amination
Property, the lamellar structure of graphene can be kept well, to keep the characteristic of graphene.
The present invention provides a kind of amination graphene oxides, graphene oxide and ammonia source warp after being activated by surface hydroxyl
It is obtained after preparation.
Preferably, the molar ratio in the graphene oxide after the surface hydroxyl activation and the ammonia source is 1:(2~5);
The ammonia source includes one of ammonium hydroxide, triethylene tetramine, aniline, ethylenediamine and p-phenylenediamine or a variety of;
Graphene oxide after surface hydroxyl activation include graphene oxide after surface hydroxyl activation with it is organic molten
Graphene oxide solution after the surface hydroxyl activation that agent obtains after ultrasonic disperse;
The time of the ultrasonic disperse is 30~60min;
The frequency of the ultrasonic disperse is 30~50KHz.
Preferably, the graphene oxide after the surface hydroxyl activation is made by following steps:
1) after dispersing graphene oxide in polar solvent, graphene oxide solution is obtained;
2) after the graphene oxide solution, activator and the acid binding agent mixing that obtain above-mentioned steps, reaction system is obtained;
3) after the reaction system heating reaction that in the absence of oxygen, above-mentioned steps are obtained, surface hydroxyl activation is obtained
Graphene oxide afterwards.
Preferably, the polar solvent includes n,N-Dimethylformamide, N-Methyl pyrrolidone, N, N- dimethylacetamide
One of amine, tetrahydrofuran, dimethyl sulfoxide and ethylene glycol are a variety of;
The acid binding agent includes one of triethylamine, pyridine and 4-dimethylaminopyridine or a variety of;
The activator includes one of paratoluensulfonyl chloride, trifluoromethanesulfanhydride anhydride, methane sulfonyl chloride and thionyl chloride
Or it is a variety of;
The mass volume ratio of the graphene oxide and the polar solvent is (0.1~2) g:100mL;
The molar ratio of the graphene oxide and the activator is 1:(2~5);
The molar ratio of the graphene oxide and the acid binding agent is 1:(4~10).
Preferably, the step 2) specifically:
21) it is molten to obtain dehydration graphene oxide after dehydration for the graphene oxide solution for obtaining above-mentioned steps
Liquid;
22) the dehydration graphene oxide solution that above-mentioned steps obtain is slowly added into the mixing of activator and polar solvent
In solution, after emptying oxygen, intermediate system is obtained;
23) in the absence of oxygen, the mixed liquor of acid binding agent and polar solvent is slowly added into above-mentioned intermediate system,
Obtain reaction system.
Preferably, in the step 1), the graphene oxide includes graphene oxide slurry;
The mass fraction of the graphene oxide slurry is 25%~30%;
The mass ratio of the graphene oxide slurry and the molecular sieve is 1:(10~20);
In the step 2), the dehydration is molecular sieve dehydration processing;
It is described to be incorporated slowly as being added dropwise;The condition of the anaerobic includes vacuum or is passed through protective gas.
Preferably, the step 3) specifically:
In the absence of oxygen, in tiny structure and in the state of be heated to reflux, reaction system that above-mentioned steps are obtained into
After row reaction, post-processing obtains the graphene oxide after surface hydroxyl activation;
The temperature of the reaction is 80~90 DEG C;
The time of the reaction is 4~10h;
The pressure of the tiny structure is 100~120mbar;
The temperature of the drying is 50~60 DEG C;The time of the drying be 12~for 24 hours.
Preferably, which is characterized in that the specific steps of the preparation are as follows:
A it after graphene oxide solution, ammonia source and organic solvent mixing after) activating surface hydroxyl are reacted, obtains
Amidized graphene.
Preferably, the step A) specifically:
A1) ammonia source and organic solvent are first mixed, obtain ammonia source solution;
A2) into the ammonia source solution that above-mentioned steps obtain, the graphene oxide solution after being slowly added to activation is reacted
Afterwards, amidized graphene is obtained.
Preferably, the mass volume ratio of the graphene oxide after the surface hydroxyl activation and the organic solvent is (0.1
~5) g:100mL;
The organic solvent includes N,N-dimethylformamide, N-Methyl pyrrolidone, DMAC N,N' dimethyl acetamide, tetrahydro
One of furans, dimethyl sulfoxide and ethylene glycol are a variety of;
The temperature of the reaction is 0~40 DEG C;
The reaction includes reacting and/or reacting under stirring conditions under conditions of microwave;
The reaction time reacted under conditions of the stirring is 4~8h;
The reaction time reacted under conditions of the microwave is 10~30min;The power of the microwave is 500~1300W;
It further include post-processing step after the reaction.
The present invention provides a kind of amination graphene oxides, graphene oxide and ammonia source warp after being activated by surface hydroxyl
It is obtained after preparation.Compared with prior art, the present invention changes for non-covalent bond in existing surface of graphene oxide method of modifying
Property binding force is weak, unstable, and the technical operation condition of existing covalent modification surface of graphene oxide is more harsh, temperature
Height, the reaction time is long, and energy consumption is high, cannot completely keep the lamellar structure of graphene, the defect for leading to graphene curling, reuniting.
The present invention activated using surface hydroxyl after graphene oxide as raw material, be directly added into ammonia source carry out amination modified, graphite oxide
After activated dose of the hydroxyl on alkene surface activation, carbon-oxygen bond becomes easy fracture, thus can keep graphene oxide well
Lamellar structure keeps primary characteristic.
The experimental results showed that the present invention, which makees raw material using the graphene oxide after activation, to be changed in a mild condition
Property reaction so that amino is easier connected to surface of graphene oxide, and the lamellar structure of graphene will not be changed.
Detailed description of the invention
Fig. 1 is the process flow diagram of activating process shown in the embodiment of the present invention 1;
Fig. 2 be the embodiment of the present invention 1 prepare it is hydroxy activated after graphene oxide scanning electron microscope (SEM) photograph;
Fig. 3 is the process flow diagram that the embodiment of the present invention 2 prepares amination graphene oxide;
Fig. 4 is the infrared spectrogram of amidized graphene oxide prepared by the embodiment of the present invention 4;
Fig. 5 is the metallographic microscope of amidized graphene oxide solution prepared by the embodiment of the present invention 4.
Specific embodiment
For a further understanding of the present invention, the preferred embodiment of the invention is described below with reference to embodiment, still
It should be appreciated that these descriptions are intended merely to further illustrate the features and advantages of the present invention, rather than to invention claim
Limitation.
All raw materials of the present invention, are not particularly limited its source, buying on the market or according to those skilled in the art
The preparation of conventional method known to member.
All raw materials of the present invention, are not particularly limited its purity, and present invention preferably employs analyze the preparation of pure or graphene
The purity requirement of field routine.
All raw materials of the present invention, the trade mark and abbreviation belong to this field routine trade mark and abbreviation, each trade mark and abbreviation
In the field of its associated uses be it is explicit, those skilled in the art according to the trade mark, abbreviation and corresponding purposes,
It can be commercially available from city's mid-sales or conventional method is prepared.
The present invention provides a kind of amination graphene oxides, graphene oxide and ammonia source warp after being activated by surface hydroxyl
It is obtained after preparation.
The definition of the graphene is not particularly limited in the present invention, with the general of graphene well known to those skilled in the art
Thought, those skilled in the art can select and adjust according to practical situations, product requirement and quality requirement,
Graphene of the present invention is preferably the graphene of broad sense, i.e. graphite alkenes material, preferably include graphene, graphene oxide and
One of redox graphene is a variety of, more preferably single-layer graphene, multi-layer graphene, graphene oxide or oxygen reduction
Graphite alkene, the graphene preferably refers to graphene oxide in the present invention, is particularly preferred as the Gao Pin of Ou Bo company production
One of matter graphene oxide (patent No.: CN 106115669A) and graphene oxide (CN 106430175A) are a variety of.
The ammonia source is not particularly limited in the present invention, with well known to those skilled in the art modified for graphene oxide
Ammonia source, those skilled in the art can according to practical condition, it is modified require and quality control select and
Adjustment, ammonia source of the present invention preferably includes one of ammonium hydroxide, triethylene tetramine, aniline, ethylenediamine and p-phenylenediamine or more
Kind, more preferably ammonium hydroxide, triethylene tetramine or ethylenediamine, most preferably ammonium hydroxide or triethylene tetramine.
The additional amount in the ammonia source is not particularly limited in the present invention, with well known to those skilled in the art amination modified
Additional amount, those skilled in the art can according to practical condition, modified require and quality control select
And adjustment, the molar ratio of graphene oxide and the ammonia source after activation of the present invention is preferably 1:(2~5), more preferably
1:(2.5~4.5), most preferably 1:(3~4).
The present invention is to further increase the property of product, optimization and complete reaction route, after the surface hydroxyl activation
Graphene oxide preferably includes the graphene oxide solution after surface hydroxyl activation, the more preferably oxidation after surface hydroxyl activation
Graphene oxide solution after the surface hydroxyl activation that graphene and organic solvent obtain after ultrasonic disperse.
The organic solvent in above-mentioned steps is not particularly limited in the present invention, with well known to those skilled in the art organic molten
Agent, those skilled in the art can select and adjust according to practical condition, modified requirement and quality control,
Organic solvent of the present invention preferably includes N,N-dimethylformamide, N-Methyl pyrrolidone, DMAC N,N' dimethyl acetamide, four
One of hydrogen furans, dimethyl sulfoxide and ethylene glycol are a variety of, more preferably n,N-Dimethylformamide, N- crassitude
Ketone, DMAC N,N' dimethyl acetamide, tetrahydrofuran, dimethyl sulfoxide or ethylene glycol.Graphene oxide after activating in the present invention
Organic solvent in solution may be the same or different with the organic solvent in step A), and the two is independent selected from above-mentioned
Range, to be easy to produce, the present invention is preferably identical.
The additional amount of the organic solvent in above-mentioned steps is not particularly limited in the present invention, known to those skilled in the art
The amount of being routinely added to, those skilled in the art can according to practical condition, modified require and quality control carries out
Selection and adjustment.
The time of ultrasonic disperse is not particularly limited in the present invention, with ultrasonic disperse well known to those skilled in the art when
Between, those skilled in the art can select and adjust according to practical condition, modified requirement and quality control,
The time of ultrasonic disperse of the present invention is preferably 30~60min, more preferably 35~55min, most preferably 40~50min.
The frequency of ultrasonic disperse is not particularly limited in the present invention, with the frequency of ultrasonic disperse well known to those skilled in the art
Rate, those skilled in the art can select and adjust according to practical condition, modified requirement and quality control,
The frequency of ultrasonic disperse of the present invention is preferably 30~50KHz, more preferably 33~48KHz, most preferably 35~45KHz.
The source of the graphene oxide after surface hydroxyl activation is not particularly limited in the present invention, with those skilled in the art
Well known usual sources, can conventionally prepare or commercially available purchase, those skilled in the art can be according to realities
The border condition of production, modified requirement and quality control are selected and are adjusted, and the present invention is to further increase the property of product, is protected
Demonstrate,prove the integrality of graphene-structured, optimization and complete reaction route, the graphene oxide after surface hydroxyl activation preferably by
Following steps are prepared:
1) after dispersing graphene oxide in polar solvent, graphene oxide solution is obtained;
2) after the graphene oxide solution, activator and the acid binding agent mixing that obtain above-mentioned steps, reaction system is obtained;
3) after the reaction system heating reaction that in the absence of oxygen, above-mentioned steps are obtained, surface hydroxyl activation is obtained
Graphene oxide afterwards.
The present invention in a mild condition activates the hydroxyl of surface of graphene oxide, passes through activator and graphite oxide
Alkene surface hydroxyl combines and forms easy leaving group, has activated the carbon-oxygen bond of surface of graphene oxide, has reduced subsequent oxidation graphite
The difficulty of alkene surface covalent modification, the graphene oxide after being activated are that the surface amination of graphene oxide is modified
A kind of higher intermediate of activity is provided.The present invention uses the graphene oxide after above-mentioned activation, carries out subsequent covalent bond and changes
Property reaction, can be carried out under the conditions of relatively mild, to keep the lamellar structure of graphene.The present invention is to graphite oxide
The hydroxyl on alkene surface is activated, and easy leaving group is formed, and obtains the carbon-oxygen bond compared with easy fracture, so that subsequent carry out graphene
Surface it is modified, can be carried out without exacting terms, i.e. saving energy consumption, and the lamellar structure of graphene can be kept well,
To keep the characteristic of graphene.
After the present invention first disperses graphene oxide in polar solvent, graphene oxide solution is obtained.
The source of the graphene oxide is not particularly limited in the present invention, with oxidation stone well known to those skilled in the art
The usual sources of black alkene, can conventionally prepare or commercially available purchase, those skilled in the art can roots
It is required according to practical condition, activation and quality control is selected and adjusted.
The form of the graphene oxide is not particularly limited in the present invention, with oxidation stone well known to those skilled in the art
The conventionally form of black alkene, can conventionally prepare or commercially available purchase, those skilled in the art can roots
It is required according to practical condition, activation and quality control is selected and adjusted, graphene oxide of the present invention preferably wraps
Graphene oxide powder or graphene oxide slurry, more preferably graphene oxide slurry are included, Shandong Ou Bo company is specifically as follows
The graphene oxide slurry (Shandong Ou Bo new material Co., Ltd patent CN106115669A) of preparation.
The concentration of the graphene oxide slurry is not particularly limited in the present invention, with oxygen well known to those skilled in the art
The concentration of graphite alkene slurry, those skilled in the art can be according to practical condition, activation requirement and quality controls
System is selected and is adjusted, and the mass fraction of graphene oxide slurry of the present invention is preferably 25%~30%, more preferably
26%~29%, more preferably 27%~28%.
The specific choice of the polar solvent is not particularly limited in the present invention, with dispersion well known to those skilled in the art
The polar solvent of graphene oxide, those skilled in the art can be according to practical condition, activation requirement and quality
Control is selected and is adjusted, and polar solvent of the present invention preferably includes n,N-Dimethylformamide (DMF), N- methylpyrrole
One of alkanone (NMP), n,N-dimethylacetamide, tetrahydrofuran, dimethyl sulfoxide and ethylene glycol are a variety of, more preferably
N,N-Dimethylformamide, N-Methyl pyrrolidone, tetrahydrofuran, dimethyl sulfoxide or ethylene glycol, most preferably N, N- diformazan
Base formamide.
The additional amount of the polar solvent is not particularly limited in the present invention, with oxidation stone well known to those skilled in the art
The concentration of black alkene solution, those skilled in the art can according to practical condition, activation require and quality control into
The mass volume ratio of row selection and adjustment, graphene oxide of the present invention and the polar solvent is preferably (0.1~2) g:
100mL, more preferably (0.3~1.8) g:100mL, most preferably (0.5~1.5) g:100mL.
The concrete mode of the dispersion is not particularly limited in the present invention, with dispersion well known to those skilled in the art oxidation
The mode of graphene, those skilled in the art can require according to practical condition, activation and quality control carries out
Selection and adjustment, dispersion of the present invention preferably include ultrasonic disperse.
The actual conditions of the ultrasonic disperse are not particularly limited in the present invention, with ultrasound well known to those skilled in the art
The condition of dispersion, those skilled in the art can require according to practical condition, activation and quality control is selected
It selects and adjusts, the time of dispersion of the present invention is preferably 20~60min, more preferably 25~55min, more preferably 30~
50min, most preferably 35~45min.The frequency of dispersion of the present invention is preferably 30~50KHz, more preferably 33~
48KHz, most preferably 35~45KHz.
After graphene oxide solution, activator and acid binding agent mixing that the present invention then obtains above-mentioned steps, obtain anti-
Answer system.
The specific choice of the activator is not particularly limited in the present invention, with activator well known to those skilled in the art
, those skilled in the art can require according to practical condition, activation and quality control is selected and adjusted, this
It invents the activator and preferably includes paratoluensulfonyl chloride (TosCl), trifluoromethanesulfanhydride anhydride (Tf2O), methane sulfonyl chloride (MSCl)
With one of thionyl chloride or a variety of, more preferably paratoluensulfonyl chloride, trifluoromethanesulfanhydride anhydride, methane sulfonyl chloride or dichloro are sub-
Sulfone, most preferably paratoluensulfonyl chloride.
The dosage of the activator is not particularly limited in the present invention, conventional with activator well known to those skilled in the art
Dosage, those skilled in the art can require according to practical condition, activation and quality control is selected and adjusted
Whole, the molar ratio of graphene oxide of the present invention and the activator is preferably 1:(2~5), more preferably 1:(2.5~
4.5), most preferably 1:(3~4).
The specific choice of the acid binding agent is not particularly limited in the present invention, with acid binding agent well known to those skilled in the art
, those skilled in the art can require according to practical condition, activation and quality control is selected and adjusted, this
It invents the acid binding agent and preferably includes one of triethylamine, pyridine and 4-dimethylaminopyridine or a variety of, more preferably three second
Amine or pyridine, most preferably triethylamine.
The dosage of the acid binding agent is not particularly limited in the present invention, conventional with acid binding agent well known to those skilled in the art
Dosage, those skilled in the art can require according to practical condition, activation and quality control is selected and adjusted
Whole, the molar ratio of graphene oxide of the present invention and the acid binding agent is preferably 1:(4~10), more preferably 1:(5~9),
Most preferably 1:(6~8).
The present invention is to further increase the performance of the graphene oxide after activation, complete process route, the step 2) tool
Body is preferred are as follows:
21) it is molten to obtain dehydration graphene oxide after dehydration for the graphene oxide solution for obtaining above-mentioned steps
Liquid;
22) the dehydration graphene oxide solution that above-mentioned steps obtain is slowly added into the mixing of activator and polar solvent
In solution, after emptying oxygen, intermediate system is obtained;
23) in the absence of oxygen, the mixed liquor of acid binding agent and polar solvent is slowly added into above-mentioned intermediate system,
Obtain reaction system.
The present invention is to avoid the influence of water in graphene oxide raw material and polar solvent in system, preferably obtains above-mentioned steps
The graphene oxide solution arrived obtains dehydration graphene oxide solution after dehydration.
The concrete mode of the dehydration is not particularly limited in the present invention, with dehydration well known to those skilled in the art
Processing mode, those skilled in the art can control according to practical condition, moisture content of raw material and quality and carry out
Selection and adjustment, dehydration of the present invention are preferably molecular sieve dehydration processing, i.e., are carried out dehydrating using molecular sieve, more
It is preferably carried out dehydrating using 5A molecular sieve, is specifically as follows and mistake after immersion is added in graphene oxide solution in molecular sieve
Filter processing.
The dosage of the molecular sieve is not particularly limited in the present invention, is with conventional amount used well known to those skilled in the art
Can, those skilled in the art can control according to practical condition, moisture content of raw material and quality and select and adjust,
The mass ratio of the quality of molecular sieve of the present invention and the graphene oxide slurry is preferred (10~20): 1, more preferably (12
~18): 1, more preferably (14~16): 1.
The time of the dehydration is not particularly limited in the present invention, with dewatering time well known to those skilled in the art
, those skilled in the art can according to practical condition, moisture content of raw material and quality control select and adjust
Whole, the time of dehydration of the present invention is preferably 12~48h, more preferably 18~42h, most preferably 24~36h.
The present invention is to avoid the influence of oxygen in air, unevenly, preferably will be above-mentioned also to avoid activation process unstable
The dehydration graphene oxide solution that step obtains is slowly added into the mixed solution of activator and polar solvent, empties oxygen
Afterwards, intermediate system is obtained, i.e., is preferably first mixed activator with polar solvent, obtains mixed solution, then above-mentioned steps are obtained
Dehydration graphene oxide solution be slowly added in mixed solution, empty oxygen after, obtain intermediate system.
The specific ratio of the mixed solution is not particularly limited in the present invention, with routine well known to those skilled in the art
Ratio, those skilled in the art can require according to practical condition, activation and quality control is selected and adjusted
Whole, the present invention can be fully dispersed with activator or be dissolved in polar solvent as preferred embodiment.
The mode being slowly added to is not particularly limited in the present invention, is slowly added to well known to those skilled in the art
Mode, those skilled in the art can according to practical condition, activation require and quality control select and
Adjustment, the mode of the present invention being slowly added to preferably include to be added dropwise.
The actual conditions being slowly added to are not particularly limited in the present invention, with well known to those skilled in the art slow
The condition of addition, those skilled in the art can require according to practical condition, activation and quality control is selected
It selects and adjusts, the rate of the present invention being slowly added to is preferably 1~2 drop/sec, more preferably 1 drop/sec or 2 drops/sec.
The mode of the emptying oxygen is not particularly limited in the present invention, with emptying oxygen well known to those skilled in the art
Mode, those skilled in the art can according to practical condition, activation require and quality control select and
The mode of adjustment, emptying oxygen of the present invention preferably includes vacuum and/or is passed through protective gas, is more preferably passed through protection
Property gas, is specifically as follows and is passed through nitrogen.
The present invention is to avoid the influence of oxygen in air, also to avoid activation process unstable, unevenly, preferably in anaerobic
Under conditions of, the mixed liquor of acid binding agent and polar solvent is slowly added into above-mentioned intermediate system, reaction system is obtained, i.e., it is excellent
Choosing first mixes acid binding agent with polar solvent, obtains mixed liquor, then in the absence of oxygen, be slowly added into above-mentioned steps
In obtained intermediate system, after emptying oxygen, reaction system is obtained.
The present invention has special limitation to the specific ratio of the mixed liquor, with conventional ratio well known to those skilled in the art
, those skilled in the art can require according to practical condition, activation and quality control is selected and adjusted, this
Invention can be fully dispersed with acid binding agent or be dissolved in polar solvent as preferred embodiment.
The mode being slowly added to is not particularly limited in the present invention, is slowly added to well known to those skilled in the art
Mode, those skilled in the art can according to practical condition, activation require and quality control select and
Adjustment, the mode of the present invention being slowly added to preferably include to be added dropwise.
The actual conditions being slowly added to are not particularly limited in the present invention, with well known to those skilled in the art slow
The condition of addition, those skilled in the art can require according to practical condition, activation and quality control is selected
It selects and adjusts, the rate of the present invention being slowly added to is preferably 1~2 drop/sec, more preferably 1 drop/sec or 2 drops/sec.
The producing method under conditions of the anaerobic is not particularly limited in the present invention, with well known to those skilled in the art
Empty oxygen mode, those skilled in the art can according to practical condition, activation require and quality control into
Row selection and adjustment, the condition of anaerobic of the present invention preferably include vacuum and/or are passed through protective gas, be more preferably passed through
Protective gas is more preferably passed through nitrogen or inert gas, is specifically as follows and is passed through nitrogen.
The present invention finally in the absence of oxygen, after the reaction system heating reaction that above-mentioned steps are obtained, is activated
Graphene oxide afterwards.
The producing method under conditions of the anaerobic is not particularly limited in the present invention, with well known to those skilled in the art
Empty oxygen mode, those skilled in the art can according to practical condition, activation require and quality control into
Row selection and adjustment, the condition of anaerobic of the present invention preferably include vacuum and/or are passed through protective gas, be more preferably passed through
Protective gas is specifically as follows and is passed through nitrogen.
The temperature of the heating reaction is not particularly limited in the present invention, and those skilled in the art can be according to actual production
Situation, activation require and quality control is selected and adjusted, and the temperature of heating reaction of the present invention is preferably 80~90
DEG C, more preferably 82~88 DEG C, most preferably 84~86 DEG C.The time of the heating reaction is not particularly limited in the present invention,
Those skilled in the art can require according to practical condition, activation and quality control is selected and adjusted, the present invention
The time of the heating reaction is preferably 4~10h, more preferably 5~9h, most preferably 6~8h.
The present invention is to further increase the performance of the graphene oxide after activation, complete process route, the step 3) tool
Body is preferred are as follows:
In the absence of oxygen, in tiny structure and in the state of be heated to reflux, reaction system that above-mentioned steps are obtained into
After row reaction, the graphene oxide after being activated is post-processed.
The specific pressure of the tiny structure is not particularly limited in the present invention, with tiny structure well known to those skilled in the art
Pressure, those skilled in the art can according to practical condition, activation require and quality control select and
Adjustment, the pressure of tiny structure of the present invention is preferably 100~120mbar, more preferably 105~115mbar, more preferably
108~112mbar is specifically as follows 100mbar.
The specific steps of the post-processing are not particularly limited in the present invention, after routine well known to those skilled in the art
Processing step, those skilled in the art can require according to practical condition, activation and quality control selects
And adjustment, post-processing step of the present invention preferably include one of washing, separation and drying or a variety of, more preferably wash
It washs, separate and dries, be specifically as follows filtering and washing, separation and vacuum drying.
The actual conditions of the drying are not particularly limited in the present invention, and those skilled in the art can be according to actual production
Situation, activation require and quality control is selected and adjusted, and the temperature of drying of the present invention is preferably 50~60 DEG C, more
Preferably 52~58 DEG C, more preferably 54~56 DEG C, are specifically as follows 55~60 DEG C.The time of drying of the present invention is preferably
12~for 24 hours, and more preferably 15~21h, more preferably 17~20h, it is specifically as follows 18~for 24 hours.
The present invention is further complete process route, refines activation process, and above-mentioned activation method is specifically as follows:
1`) graphene oxide slurry is distributed in polar solvent, obtains graphene oxide solution;
2`) step 1`) obtained in graphene oxide solution carry out ultrasonic disperse processing;
5A molecular sieve 3`) is added to step 2`) obtained in impregnate in graphene oxide solution after filtration treatment;
4`) a certain amount of activator is dissolved into polar solvent, obtains mixed liquor;
Step 4` 5`) is slowly dropped into graphene oxide solution obtained in step 3`)) obtained in mixed liquor
In, obtain intermediate system;
6`) intermediate system will be obtained in step 5`) to be added in three-necked flask, be connected on biexhaust pipe, lead to nitrogen
20min;
7`) a certain amount of acid binding agent is dissolved into polar solvent, obtains mixed liquor;
8`) lead under condition of nitrogen gas and the obtained mixed liquor of step 7`) be slowly dropped to step 6`) in intermediate system in,
Obtain reaction system;
Reaction system 9`) is taken out into negative pressure to 100mbar using diaphragm pump;
10`) reaction system is heated, guarantees solvent refluxing;
11`) by after the separation of black product filtering and washing obtained in step 10`), it is living to obtain surface hydroxyl for vacuum drying
Graphene oxide after change.
Above-mentioned steps of the present invention provide the activation method of preferred surface of graphene oxide hydroxyl, it is intended to be graphite oxide
The surface-functionalized modification of alkene provides a kind of higher intermediate of activity, i.e., the graphene oxide after the described activation, which preferably refers to, to be changed
The presoma of property graphene oxide.The present invention further passes through preferred specific activator and surface of graphene oxide hydroxy combining
Easy leaving group is formed, the carbon-oxygen bond of surface of graphene oxide has been activated, reduces surface of graphene oxide covalent modification
Difficulty.Oxidant and oxygen are particularly preferably promoted so that reaction system forms slight boiling condition in a manner of reflux by tiny structure again
The contact of graphite alkene surface, shortens the reaction time, reduces reaction temperature.For the amination modified mistake of the subsequent preparation of the present invention
Journey can provide the foundation under conditions of mild condition, graphene is allowed to keep slab organization well, thus
Preferably keep the characteristic of graphene.
The present invention is to further increase the property of product, guarantees the integrality of graphene-structured, optimization and complete reaction road
The specific steps of line, the preparation are preferred are as follows:
A) graphene oxide solution, ammonia source and the organic solvent after activation are mixed after being reacted, is obtained amidized
Graphene;
Graphene oxide after the activation includes the graphene oxide after surface hydroxyl activation.
In the above-mentioned preparation step of the present invention, the selection and its preferred scope of the material or raw material, with aforementioned amination oxygen
The selection of material or raw material in graphite alkene and its preferred scope are consistent, and this is no longer going to repeat them.
The organic solvent is not particularly limited in the present invention, with organic solvent well known to those skilled in the art,
Those skilled in the art can select and adjust according to practical condition, modified requirement and quality control, the present invention
The organic solvent preferably includes N,N-dimethylformamide, N-Methyl pyrrolidone, DMAC N,N' dimethyl acetamide, tetrahydro furan
Mutter, one of dimethyl sulfoxide and ethylene glycol or a variety of, more preferably n,N-Dimethylformamide, N-Methyl pyrrolidone,
DMAC N,N' dimethyl acetamide, tetrahydrofuran, dimethyl sulfoxide or ethylene glycol.
The additional amount of the organic solvent is not particularly limited in the present invention, is added with routine well known to those skilled in the art
Enter amount, those skilled in the art can select and adjust according to practical condition, modified requirement and quality control
Whole, the mass volume ratio of graphene oxide and the organic solvent after activation of the present invention is preferably (0.1~5) g:
100mL, more preferably (0.5~4) g:100mL, more preferably (1~3) g:100mL, most preferably (1.5~2.5) g:
100mL。
The present invention is to further increase the property of product, guarantees the integrality of graphene-structured, optimization and complete reaction road
Line, the step A) specifically it is more preferably:
A1) ammonia source and organic solvent are first mixed, obtain ammonia source solution;
A2) into the ammonia source solution that above-mentioned steps obtain, the graphene oxide solution after being slowly added to activation is reacted
Afterwards, amidized graphene oxide is obtained.
The mode first mixed is not particularly limited in the present invention, in a manner of mixing well known to those skilled in the art
, those skilled in the art can require according to practical condition, modification and quality control be selected and be adjusted, this
The mode first mixed is invented to preferably include to be stirred.
The mode being slowly added to is not particularly limited in the present invention, is slowly added to well known to those skilled in the art
Mode, those skilled in the art can according to practical condition, it is modified require and quality control select and
Adjustment, the mode of the present invention being slowly added to preferably include to be added dropwise.
The actual conditions being slowly added to are not particularly limited in the present invention, with well known to those skilled in the art slow
The condition of addition, those skilled in the art can select according to practical condition, modified requirement and quality control
It selects and adjusts, the rate of the present invention being slowly added to is preferably 1~2 drop/sec, more preferably 1 drop/sec or 2 drops/sec.
The concentration of ammonia source solution is not particularly limited in the present invention, with normal concentration well known to those skilled in the art
, those skilled in the art can require according to practical condition, modification and quality control be selected and be adjusted, with
It ammonia source being capable of uniform dissolution.
The temperature of the reaction is not particularly limited in the present invention, with the reaction temperature of modification well known to those skilled in the art
Degree, those skilled in the art can select and adjust according to practical condition, modified requirement and quality control,
The present invention uses the graphene oxide after activation for raw material, can be reacted under conditions of low temperature, i.e. low-temp reaction, described
The temperature of reaction is preferably 0~40 DEG C, more preferably 5~35 DEG C, more preferably 10~30 DEG C, most preferably 15~25 DEG C.
The concrete mode of the reaction is not particularly limited in the present invention, with the anti-of modification well known to those skilled in the art
Answer mode, those skilled in the art can according to practical condition, it is modified require and quality control select and
Adjustment, the mode of reaction of the present invention are preferably included to react under stirring conditions and/or be reacted under conditions of microwave, more
It preferably reacts or is reacted under conditions of microwave under stirring conditions.
In the present invention, the reaction time reacted under conditions of the stirring is preferably 4~8h, more preferably 5~7h, most
Preferably 5.5~6.5h.
In the present invention, the reaction time reacted under conditions of the microwave is preferably 10~30min, more preferably 12~
27min, more preferably 15~25min.The power of the microwave is preferably 500~1300W, more preferably 700~1100W, more
Preferably 800~1000W.
The present invention is further complete and optimized process flow, improves the performance of product, after the reaction it is also preferable to include
Post-processing step.
The specific steps of the post-processing are not particularly limited in the present invention, after routine well known to those skilled in the art
Processing step, those skilled in the art can require according to practical condition, activation and quality control selects
And adjustment, post-processing step of the present invention one of preferably include to be filtered, washed and dried or a variety of, more preferably
Filter, washing and drying, are specifically as follows suction filtration, alcohol is washed and is dried in vacuo.
The actual conditions of the drying are not particularly limited in the present invention, and those skilled in the art can be according to actual production
Situation, activation require and quality control is selected and adjusted, and the temperature of drying of the present invention is preferably 50~60 DEG C, more
Preferably 52~58 DEG C, more preferably 54~56 DEG C, are specifically as follows 55~60 DEG C.The time of drying of the present invention is preferably
12~for 24 hours, and more preferably 15~21h, more preferably 17~20h, it is specifically as follows 18~for 24 hours.
The present invention is further complete process route, refines modifying process, and above-mentioned method of modifying is specifically as follows:
1] graphene oxide (GOTs) after activating surface hydroxyl is distributed in n,N-Dimethylformamide (DMF), is obtained
To GOTs/DMF dispersion liquid;
2] step 1] obtained in GOTs/DMF dispersion liquid carry out ultrasonic disperse processing;
3] a certain amount of ammonia source is dissolved into DMF, forms solution;
4] by step 2 under cryogenic conditions] obtained in dispersant liquid drop be added to step 3] in obtained solution;
5] reaction solution is handled;
6] by step 5] obtained in black product filtering and washing separation after, vacuum drying, obtain amination graphite oxide
Alkene.
The present invention in a mild condition activates the hydroxyl of surface of graphene oxide, forms easy leaving group, obtains
It can carry out so that the subsequent surface carried out to graphene is modified compared with the carbon-oxygen bond of easy fracture, that is, save without exacting terms
Energy consumption, and the lamellar structure of graphene can be kept well, to keep the characteristic of graphene.
Above-mentioned steps of the present invention provide a kind of amination graphene oxide, the present invention activated with surface hydroxyl after oxidation
Graphene is raw material, be directly added into ammonia source carry out it is amination modified, activated dose of the hydroxyl of surface of graphene oxide activation after, carbon
Oxygen key becomes easy fracture, temperature and time needed for greatly reducing amination, so can be in the relatively mild item of low temperature
It is reacted under part, thus the lamellar structure of graphene oxide can be kept well, keep primary characteristic.Further preferably
Graphene oxide preparation process after surface hydroxyl activation, in a mild condition lives to the hydroxyl of surface of graphene oxide
Change, then easy leaving group is formed by preferred specific activator and surface of graphene oxide hydroxy combining, has activated oxidation stone
The carbon-oxygen bond on black alkene surface, reduces the difficulty of surface of graphene oxide covalent modification.Particularly preferably made again by tiny structure
It obtains reaction system and forms slight boiling condition, promote oxidant to contact with surface of graphene oxide in a manner of reflux, shorten reaction
Time reduces reaction temperature, the graphene oxide after being activated.The present invention is in a mild condition to graphene oxide table
The hydroxyl in face is activated, and easy leaving group is formed, and obtains the carbon-oxygen bond compared with easy fracture, so that the subsequent table carried out to graphene
Face is modified, can carry out without exacting terms, i.e. saving energy consumption, and can keep the lamellar structure of graphene well, thus
Keep the characteristic of graphene.And compared to the amination method of two-step reaction, the present invention directly utilizes the oxidation of surface active
Graphene is saved single step reaction, can also be reduced reaction time and energy consumption as reaction raw materials.
The experimental results showed that the present invention, which makees raw material using the graphene oxide after activation, to be changed in a mild condition
Property reaction so that amino is easier connected to surface of graphene oxide, and the lamellar structure of graphene will not be changed.
In order to further illustrate the present invention, with reference to embodiments to a kind of amination graphene oxide provided by the invention
Preparation method be described in detail, but it is to be understood that these embodiments be under the premise of the technical scheme of the present invention into
Row is implemented, and the detailed implementation method and specific operation process are given, only to further illustrate feature of the invention and excellent
Point, rather than limiting to the claimed invention, protection scope of the present invention are also not necessarily limited to following embodiments.
Embodiment 1
Graphene oxide after surface hydroxyl activation
1. 0.75g graphene oxide slurry (mass fraction 28%) is added in single-necked flask, 100mL DMF is added, surpasses
Sound stirring 30min obtains graphene oxide dispersion;
2. the 5A molecular sieve after 9g activation is added in step 1. middle graphene oxide dispersion, dispersion liquid after impregnating for 24 hours
It is filled into three-necked flask;
3. weighing 1.14g paratoluensulfonyl chloride (paratoluensulfonyl chloride is 3:1 with graphene oxide molar ratio), 10mL is added
DMF dissolution;
4. under stirring condition, by step 3. obtained in solution be slowly dropped to step 2. obtained in graphene oxide point
In dispersion liquid;
5. step 4. in be transferred in oil bath pan equipped with the three-necked flask of dispersion liquid, connect condenser pipe, biexhaust pipe, lead to nitrogen
20min;
6. weighing 1.212g triethylamine (triethylamine is 6:1 with graphene oxide molar ratio), 10mLDMF dissolution is added;
7. under condition of nitrogen gas, 6. solution that step is obtained is added drop-wise in 5. dispersion liquid that step obtains, 10min is stirred;
8. after completing step 7., disconnecting biexhaust pipe, reaction system closing, condenser pipe connects diaphragm pump, takes out negative pressure
100mbar;
9. opening heating, it is heated to reflux 6h at 80 DEG C, product filters after the reaction was completed, DMF washing, 80 DEG C of vacuum drying
12h, obtain it is hydroxy activated after graphene oxide.
It is the process flow diagram of activating process shown in the embodiment of the present invention 1 referring to Fig. 1, Fig. 1.
Member is carried out using elemental analyser method to the graphene oxide after hydroxy activated prepared by the embodiment of the present invention 1
Element analysis.
Referring to table 1, table 1 is the graphene oxide elemental analysis result of the activation of the embodiment of the present invention 1 front and back.
Table 1
Project | Raw material | Embodiment 1 |
C/% | 54.87 | 60.1 |
H/% | 2.12 | 2.959 |
O/% | 38.698 | 30.0810 |
N/% | 0.08 | 1.38 |
S/% | 0.660 | 1.087 |
As can be seen from Table 1, the product of embodiment 1 sulfur content compared with raw material is significantly raised, illustrates activator
Through being connected to surface of graphene oxide.
Graphene oxide after the surface hydroxyl activation prepared to the embodiment of the present invention 1 characterizes.
Referring to fig. 2, Fig. 2 be the embodiment of the present invention 1 prepare it is hydroxy activated after graphene oxide scanning electron microscope (SEM) photograph.
As seen from Figure 2, the graphene oxide after activation still exists with sheet, can be very good to keep lamella knot
Structure.
Embodiment 2
Amination graphene oxide
1. GOTs prepared by 0.212g embodiment 1 is added in single-necked flask, 100mL DMF is added, 30min is stirred by ultrasonic
Obtain GOTs/DMF dispersion liquid;
2. weighing 1.3g triethylene tetramine, (triethylene tetramine mass fraction is 68%, triethylene tetramine and GOTs molar ratio
It is 3:1) in three-necked flask, 50mL DMF dissolution is added;
3. 1. GOTs/DMF dispersion liquid that step obtains is slowly dropped to step and 2. obtained by (0 DEG C) under the conditions of ice bath stirring
Solution in;
4. by step 3. obtained in reaction solution be added in microwave reactor, react 10min under 800W power;
5. product filters after the reaction was completed, dehydrated alcohol washing, 60 DEG C of vacuum drying 12h obtain amination graphite oxide
Alkene.
It is the process flow diagram that the embodiment of the present invention 2 prepares amination graphene oxide referring to Fig. 3, Fig. 3.
Element point is carried out using elemental analyser method to amidized graphene oxide prepared by the embodiment of the present invention 2
Analysis.
Referring to table 2, table 2 be the embodiment of the present invention preparation amidized graphene oxide before modified after elemental analysis knot
Fruit.
Table 2
Project | Raw material | Embodiment 2 | Embodiment 3 | Embodiment 4 | Embodiment 5 |
C/% | 54.87 | 44.99 | 61.42 | 51.12 | 60.89 |
H/% | 2.12 | 6.326 | 2.455 | 5.207 | 2.496 |
O/% | 38.698 | 13.319 | 32.488 | 16.872 | 31.739 |
N/% | 0.08 | 16.14 | 1.89 | 11.61 | 2.13 |
S/% | 0.660 | 0.411 | 0.987 | 0.803 | 0.551 |
As can be seen from Table 2, the N element content in the graphene oxide after amination modified is significantly raised.
Embodiment 3
Amination graphene oxide
1. GOTs prepared by 0.212g embodiment 1 is added in single-necked flask, 100mL DMF is added, 30min is stirred by ultrasonic
Obtain GOTs/DMF dispersion liquid;
2. weighing 0.25g ammonium hydroxide (ammonium hydroxide mass fraction is 28%, and NH3 and GOTs molar ratio are 2:1 in ammonium hydroxide) Yu Sankou
In flask, 50mL DMF dissolution is added;
3. 1. GOTs/DMF dispersion liquid that step obtains is slowly dropped to step and 2. obtained by (0 DEG C) under the conditions of ice bath stirring
Solution in;
4. reaction solution stirs 12h under condition of ice bath;
5. product filters after the reaction was completed, dehydrated alcohol washing, 60 DEG C of vacuum drying 12h obtain amination graphite oxide
Alkene.
Element point is carried out using elemental analyser method to amidized graphene oxide prepared by the embodiment of the present invention 3
Analysis.
Referring to table 2, table 2 be the embodiment of the present invention preparation amidized graphene oxide before modified after elemental analysis knot
Fruit.
Embodiment 4
Amination graphene oxide
1. GOTs prepared by 0.212g embodiment 1 is added in single-necked flask, 100mL DMF is added, 30min is stirred by ultrasonic
Obtain GOTs/DMF dispersion liquid;
2. weighing 1.7g triethylene tetramine, (triethylene tetramine mass fraction is 68%, triethylene tetramine and GOTs molar ratio
It is 4:1) in three-necked flask, 50mL DMF dissolution is added;
3. 1. GOTs/DMF dispersion liquid that step obtains is slowly dropped to step and 2. obtained by (0 DEG C) under the conditions of ice bath stirring
Solution in;
4. stirring 12h under the conditions of 20 DEG C of reaction solution;
5. product filters after the reaction was completed, dehydrated alcohol washing, 60 DEG C of vacuum drying 12h obtain amination graphite oxide
Alkene.
Element point is carried out using elemental analyser method to amidized graphene oxide prepared by the embodiment of the present invention 4
Analysis.
Referring to table 2, table 2 be the embodiment of the present invention preparation amidized graphene oxide before modified after elemental analysis knot
Fruit.
Graphene oxide after the surface hydroxyl activation prepared to the embodiment of the present invention 4 characterizes.
Referring to fig. 4, Fig. 4 is the infrared spectrogram of amidized graphene oxide prepared by the embodiment of the present invention 4.
The ammonia prepared by this it appears that the absorption peak of N-H key, showing the embodiment of the present invention 4 in Fig. 4 infrared spectrogram
In the graphene oxide of base, amino is already chained on graphene oxide.
Referring to Fig. 5, Fig. 5 is the metallographic microscope of amidized graphene oxide solution prepared by the embodiment of the present invention 4.
As seen from Figure 5, the amidized graphene oxide that prepared by the embodiment of the present invention 4 is still able to maintain by modified
Preferable piece type structure.
Embodiment 5
Amination graphene oxide
1. GOTs prepared by 0.212g embodiment 1 is added in single-necked flask, 100mL DMF is added, 30min is stirred by ultrasonic
Obtain GOTs/DMF dispersion liquid;
2. weighing 0.6g ammonium hydroxide (ammonium hydroxide mass fraction is 28%, and NH3 and GOTs molar ratio are 5:1 in ammonium hydroxide) to burn in three mouthfuls
In bottle, 50mL DMF dissolution is added;
3. 1. GOTs/DMF dispersion liquid that step obtains is slowly dropped to step and 2. obtained by (0 DEG C) under the conditions of ice bath stirring
Solution in;
4. by step 3. obtained in reaction solution be added in microwave reactor, react 10min under 1000W power;
5. product filters after the reaction was completed, dehydrated alcohol washing, 60 DEG C of vacuum drying 12h obtain amination graphite oxide
Alkene.
Element point is carried out using elemental analyser method to amidized graphene oxide prepared by the embodiment of the present invention 5
Analysis.
Referring to table 2, table 2 be the embodiment of the present invention preparation amidized graphene oxide before modified after elemental analysis knot
Fruit.
Detailed Jie has been carried out to a kind of preparation method of the graphene oxide of surface amination provided by the invention above
It continues, used herein a specific example illustrates the principle and implementation of the invention, and the explanation of above embodiments is only
Be be used to help to understand method and its core concept of the invention, including best mode, and but also this field any skill
Art personnel can practice the present invention, including any device or system of manufacture and use, and implement the method for any combination.It should
It points out, it for those skilled in the art, without departing from the principle of the present invention, can also be to this hair
Bright some improvement and modification can also be carried out, and these improvements and modifications also fall within the scope of protection of the claims of the present invention.The present invention is special
The range of benefit protection is defined by the claims, and may include those skilled in the art it is conceivable that other embodiments.Such as
These other embodiments of fruit have the structural element for being not different from claim character express, or if they include and power
Equivalent structural elements of the character express without essence difference that benefit requires, then these other embodiments should also be included in claim
In the range of.
Claims (10)
1. a kind of amination graphene oxide, which is characterized in that the graphene oxide and ammonia source after being activated by surface hydroxyl are through making
It is obtained after standby.
2. amination graphene oxide according to claim 1, which is characterized in that the oxidation after the surface hydroxyl activation
The molar ratio in graphene and the ammonia source is 1:(2~5);
The ammonia source includes one of ammonium hydroxide, triethylene tetramine, aniline, ethylenediamine and p-phenylenediamine or a variety of;
Graphene oxide after the surface hydroxyl activation includes the graphene oxide and organic solvent warp after surface hydroxyl activation
Graphene oxide solution after the surface hydroxyl activation obtained after ultrasonic disperse;
The time of the ultrasonic disperse is 30~60min;
The frequency of the ultrasonic disperse is 30~50KHz.
3. amination graphene oxide according to claim 1 or 2, which is characterized in that after the surface hydroxyl activation
Graphene oxide is made by following steps:
1) after dispersing graphene oxide in polar solvent, graphene oxide solution is obtained;
2) after the graphene oxide solution, activator and the acid binding agent mixing that obtain above-mentioned steps, reaction system is obtained;
3) after the reaction system heating reaction that in the absence of oxygen, above-mentioned steps are obtained, after obtaining surface hydroxyl activation
Graphene oxide.
4. amination graphene oxide according to claim 3, which is characterized in that the polar solvent includes N, N- diformazan
One of base formamide, N-Methyl pyrrolidone, DMAC N,N' dimethyl acetamide, tetrahydrofuran, dimethyl sulfoxide and ethylene glycol
Or it is a variety of;
The acid binding agent includes one of triethylamine, pyridine and 4-dimethylaminopyridine or a variety of;
The activator includes one of paratoluensulfonyl chloride, trifluoromethanesulfanhydride anhydride, methane sulfonyl chloride and thionyl chloride or more
Kind;
The mass volume ratio of the graphene oxide and the polar solvent is (0.1~2) g:100mL;
The molar ratio of the graphene oxide and the activator is 1:(2~5);
The molar ratio of the graphene oxide and the acid binding agent is 1:(4~10).
5. amination graphene oxide according to claim 3, which is characterized in that the step 2) specifically:
21) graphene oxide solution for obtaining above-mentioned steps obtains dehydration graphene oxide solution after dehydration;
22) the dehydration graphene oxide solution that above-mentioned steps obtain is slowly added into the mixed solution of activator and polar solvent
In, after emptying oxygen, obtain intermediate system;
23) in the absence of oxygen, the mixed liquor of acid binding agent and polar solvent is slowly added into above-mentioned intermediate system, is obtained
Reaction system.
6. amination graphene oxide according to claim 3, which is characterized in that in the step 1), the oxidation stone
Black alkene includes graphene oxide slurry;
The mass fraction of the graphene oxide slurry is 25%~30%;
The mass ratio of the graphene oxide slurry and the molecular sieve is 1:(10~20);
In the step 2), the dehydration is molecular sieve dehydration processing;
It is described to be incorporated slowly as being added dropwise;The condition of the anaerobic includes vacuum or is passed through protective gas.
7. amination graphene oxide according to claim 3, which is characterized in that the step 3) specifically:
In the absence of oxygen, in the state that tiny structure is with being heated to reflux, the reaction system that above-mentioned steps are obtained carries out anti-
Ying Hou, post-processing obtain the graphene oxide after surface hydroxyl activation;
The temperature of the reaction is 80~90 DEG C;
The time of the reaction is 4~10h;
The pressure of the tiny structure is 100~120mbar;
The temperature of the drying is 50~60 DEG C;The time of the drying be 12~for 24 hours.
8. amination graphene oxide described in any one according to claim 1~7, which is characterized in that the tool of the preparation
Body step are as follows:
A after graphene oxide solution, ammonia source and organic solvent mixing after) activating surface hydroxyl are reacted, amino is obtained
The graphene of change.
9. amination graphene oxide according to claim 8, which is characterized in that the step A) specifically:
A1) ammonia source and organic solvent are first mixed, obtain ammonia source solution;
A2 it) into the ammonia source solution that above-mentioned steps obtain, after the graphene oxide solution after being slowly added to activation is reacted, obtains
To amidized graphene.
10. amination graphene oxide according to claim 8, which is characterized in that the oxygen after the surface hydroxyl activation
The mass volume ratio of graphite alkene and the organic solvent is (0.1~5) g:100mL;
The organic solvent includes N,N-dimethylformamide, N-Methyl pyrrolidone, DMAC N,N' dimethyl acetamide, tetrahydro furan
It mutters, one of dimethyl sulfoxide and ethylene glycol or a variety of;
The temperature of the reaction is 0~40 DEG C;
The reaction includes reacting and/or reacting under stirring conditions under conditions of microwave;
The reaction time reacted under conditions of the stirring is 4~8h;
The reaction time reacted under conditions of the microwave is 10~30min;The power of the microwave is 500~1300W;
It further include post-processing step after the reaction.
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