CN106283858A - A kind of preparation method of photochromic corrugated board - Google Patents
A kind of preparation method of photochromic corrugated board Download PDFInfo
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- CN106283858A CN106283858A CN201610748932.3A CN201610748932A CN106283858A CN 106283858 A CN106283858 A CN 106283858A CN 201610748932 A CN201610748932 A CN 201610748932A CN 106283858 A CN106283858 A CN 106283858A
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- photochromic
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H19/00—Coated paper; Coating material
- D21H19/10—Coatings without pigments
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H21/00—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
- D21H21/06—Paper forming aids
- D21H21/08—Dispersing agents for fibres
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H21/00—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
- D21H21/06—Paper forming aids
- D21H21/12—Defoamers
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H21/00—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
- D21H21/14—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties characterised by function or properties in or on the paper
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H21/00—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
- D21H21/14—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties characterised by function or properties in or on the paper
- D21H21/36—Biocidal agents, e.g. fungicidal, bactericidal, insecticidal agents
Abstract
The invention discloses the preparation method of a kind of photochromic corrugated board, it comprises the following steps: (1) prepares antibacterial/negative solution;(2) conduction/photochromic solution is prepared;(3) after mixing antibacterial/negative solution and conduction/photochromic solution, it is sequentially added into defoamer, thickening agent and modifying agent, after high speed dispersion, obtains antibiotic antistatic coating;(4) antibiotic antistatic paint brush is applied to corrugated board and makes photochromic corrugated board.Conductive filler, anion complex, photochromic complex and antimicrobial composite material are carried out reasonably combined by corrugated board of the present invention so that corrugated board has antistatic characteristic, lasting anti-microbial property, also have characteristic that is photochromic and that purify air.
Description
Technical field
The present invention relates to the preparation method of a kind of photochromic corrugated board.
Background technology
Electrostatic defending packaging market expanding day in recent years, but packaging material form is the most single, i.e. uses electrostatic prevention plastic
Pocket is as inner packing, then with carton or plastic box as the packaged form that transportation and packing are currently mainly, but for big-and-middle
The protective packaging of type product is not appropriate for, and cost is high, operation complexity.Once develop and new possess static conductive function
Corrugated board, carton have great construction value, and its industrialization prospect is the most wide simultaneously.For Mu Qian, at corrugated board
Surface-coated electrically-conducting paint is convenient and swift, and cost is relatively low.
But, existing coating great majority are solvent based coating, serious to Environment pollution, along with the reinforcement of environmental consciousness, people
More and more begin to focus on the conduction of environmental protection, the functional type such as antibacterial, but the most less having been reported that has several functions and should concurrently
Coating for corrugated board.
Summary of the invention
The technical problem to be solved there is provided the preparation method of a kind of photochromic corrugated board.
The technical problem to be solved is achieved by the following technical programs:
A kind of preparation method of photochromic corrugated board, it comprises the following steps:
(1) aqueous film-forming resin is dissolved in half mixed solution, after mix homogeneously, adds antibacterial/anion compound, high
Speed dispersion 60 ~ 90min, obtains antibacterial/negative solution;Described antibacterial/anion compound by antimicrobial composite material and bear from
Sub-complex is obtained by mixing by weight 3 ~ 5:2 ~ 4;
(2) dispersant, auxiliary film forming matter are added in second half mixed solution, after mix homogeneously, add conduction/photochromic
Compound, high speed dispersion 60 ~ 90min, obtain conduction/photochromic solution;Described conduction/photochromic compound is filled out by conduction
Material and photochromic complex are obtained by mixing by weight 1 ~ 3:1 ~ 2;
(3), after mixing antibacterial/negative solution and conduction/photochromic solution, it is sequentially added into defoamer, thickening agent and modification
Agent, obtains antibiotic antistatic coating after high speed dispersion;
(4) antibiotic antistatic paint brush is applied to corrugated board and makes photochromic corrugated board.Wherein,
Described antibiotic antistatic coating is made up of the component of following weight proportion: 25 ~ 35 parts of waterborne film-forming fat, assists film forming matter
0.1 ~ 0.3 part, mixed solution 20 ~ 30 parts, conduction/photochromic compound 3 ~ 8 parts, defoamer 0.1 ~ 0.5 part, dispersant 0.2
~0.5 part, thickening agent 0.1~0.3 part, modifying agent 0.1~0.3 part, antibacterial/anion compound 2 ~ 6 parts.
Described aqueous film-forming resin is water soluble acrylic resin.
Described auxiliary film forming matter is methylcellulose or carboxymethyl cellulose.
Described mixed solution is the mixture of water and alcohol, and wherein alcohol is isopropanol, n-butyl alcohol or ethanol.
In the present invention, described anion complex preparation method is as follows: take 1 ~ 10g anion powder be scattered in 100 ~
In 200ml ultra-pure water, water bath sonicator 1 ~ 2h obtains the most even stable dispersion liquid;Addition 1 ~ 3g porous carbon, ultrasonic agitation 1 ~ 2h,
Allowing nano material well in porous carbon hole, repeatedly sucking filtration cleans, and is placed in confined space, carries out evacuation → heating and add
Pressure circulation 3 ~ 8 times, obtains anion complex;Wherein, anion powder preparation method is as follows: by 5 ~ 10% coral fossil, 10 ~ 15% electricity
Gas stone, 20 ~ 30% opals, 1 ~ 3% serpentine, 5 ~ 10% Maifanitums, 3 ~ 5% rare ice stone, 3 ~ 5% hokutolites, 1 ~ 5% doctor Wang Shi, 5 ~
10% shell, 10 ~ 15% kieselguhr, 1 ~ 3% iron sesquioxide, 1 ~ 3% aluminium sesquioxide, 3 ~ 8% zirconium oxides and the mixing of 1 ~ 4% zirconium phosphate
Uniformly, add in grinding equipment and carry out superfine grinding, until particle diameter distribution is at 50 ~ 80nm, sieve, be dried, can be prepared by
Anion powder.
In the present invention, described photochromic complex preparation method is as follows: under nitrogen environment, by concentration be 0.05 ~
The protonic acid solution of 0.5mol/L and the DBSA that concentration is 0.05 ~ 0.5mol/L mix with volume ratio 3:1 ~ 3, with
Time add photochromic powder, add aniline after magnetic agitation 60 ~ 120min, the color-change powder of light and aniline mass ratio are 1:5 ~ 10;
After continuously stirred 60 ~ 90min, dropwise dripping Ammonium persulfate., aniline and Ammonium persulfate. mol ratio are 1:1;At 20 DEG C~30 DEG C instead
Answer 12 ~ 36h;Acetone, deionized water wash final vacuum for several times is dried, nano polyaniline/photochromic flour complexes of milling to obtain;Will
1 ~ 10g nano polyaniline/photochromic flour complexes ultrasonic agitation is scattered in aqueous solution;Add the water of volume ratio 4:1 afterwards
And ammonia, it being stirring evenly and then adding into tetraethyl orthosilicate, regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reaction 60 ~
90min;It is centrifuged and cleans with acetone and deionized water successively obtaining precipitation;This is deposited at 90 DEG C and is dried 3h, with
To nano polyaniline/photochromic flour complexes/SiO2;By nano polyaniline/photochromic flour complexes/SiO2It is placed in argon
Carry out 800 ~ 1000 DEG C of heat treatment 1 ~ 2h under atmosphere, remove polyaniline, photochromic powder/porous SiO2, the most photochromic compound
Thing.Described photochromic powder is rare earth oxide, and described rare earth oxide is Nd2O3、Er2O3、Pr2O3、CeO2、Sm2O3、La2O3、
Y2O3、Yb2O3In at least one.
In the present invention, the preparation method of a kind of antimicrobial composite material comprises the following steps:
(1) preparing graphene quantum dot suspension: weigh 0.5 ~ 0.8g C60 powder, measuring 50 ~ 100ml mass fraction is 98%
Concentrated sulphuric acid, C60 powder and concentrated sulphuric acid are mixed in beaker, beaker is placed in ice-water bath, simultaneously with the speed of 300 ~ 500rpm
Degree stirring, obtains mixed liquor;Weigh 0.5 ~ 3g potassium permanganate powder, add slowly in above-mentioned mixed liquor;Remove ice-water bath, change
Become water-bath, keep bath temperature 30 ~ 40 DEG C, react 5 ~ 8h;Rapidly join 100 ~ 200ml pure water, filter, then with retaining molecule
Amount be 1000 bag filter dialyse 3 days, obtain graphene quantum dot suspension;100rpm speed stirring graphene quantum dot suspends
Liquid, simultaneously laser irradiation 30 ~ 60min, laser irradiation power is 1 ~ 2W.
(2) weighing Zinc oxide quantum dot (particle diameter about 2 ~ 5nm) and be configured to the dispersion liquid that concentration is 0.5 ~ 1mg/ml, solvent is
Water;Ultrasonic agitation (500 ~ 1000W ultrasonic power, 600 ~ 800rpm mixing speed) 80 ~ 100ml zinc oxide fluid dispersion, dropping step
Suddenly the half graphene quantum dot suspension that (1) prepares, continues ultrasonic agitation 30 ~ 60min;Centrifugal, clean, dry, born
The graphene quantum dot of supported with zinc oxide.
(3) surface of the graphene quantum dot of load zinc oxide processes: 0.005 ~ 0.01g graphite oxide is joined 5 ~
In the dispersant (DMSO) of 10mL, ultrasonic agitation (300 ~ 500W ultrasonic power, 200 ~ 300rpm mixing speed) add 0.1 ~
The graphene quantum dot of 0.3g load zinc oxide, continues ultrasonic agitation 10 ~ 30min, moves to the microwave that liner is politef
In hydrothermal reaction kettle (50 mL), sealing and be placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 200 ~ 400W, 200 ~ 240
60 ~ 90min is reacted at DEG C;Cooling, filter, dry surface process load zinc oxide graphene quantum dot.
(4) graphene quantum dot of preparation load silver: (300 ~ 500W ultrasonic power, 200 ~ 300rpm stirs ultrasonic agitation
Speed) second half graphene quantum dot suspension, dropping concentration is 0.001 ~ 0.005mol/L silver nitrate solution, controls reaction temperature
Degree is 45 ~ 60 DEG C, and dropping concentration is 0.01~0.08mol/L bis-citric acid monohydrate trisodium, continues ultrasonic agitation 60 ~ 120min;
Ageing, cleans, and dries to load the graphene quantum dot of silver;Graphene quantum dot suspension, silver nitrate solution and two hydration lemons
The volume ratio of lemon acid trisodium is 3 ~ 4:2 ~ 3:1 ~ 2.
(5) by 0.1 ~ 0.5g load silver graphene quantum dot ultrasonic agitation (500 ~ 1000W ultrasonic power, 300 ~
500rpm mixing speed) it is scattered in ethanol;Add water and the ammonia of volume ratio 3 ~ 5:1 afterwards, be stirring evenly and then adding into positive silicon
(being 1 ~ 2:1 with the mass ratio of the graphene quantum dot of load silver, regulation pH value is 9 ~ 10 to acetoacetic ester, and reaction temperature is 20 ~ 25
DEG C, react 1 ~ 3 hour;It is centrifuged and cleans with acetone and deionized water successively obtaining precipitation;This is deposited in 90oDo under C
Dry 3h, to obtain SiO2The graphene quantum dot of the load silver of cladding.
(6) 0.1 ~ 0.3mol/L titanium source (titanium source is potassium fluotitanate, ammonium titanium fluoride, isopropyl titanate or titanium tetrachloride) is added
Enter in 1 M sulfuric acid solution, mix homogeneously;Add the SiO that step (5) prepares2Cladding carries silver graphene quantum dot, is warming up to
100 ~ 110 DEG C, after reaction 2 ~ 4h, adjust pH value to 7 with concentrated ammonia solution, after being aged 6 hours, clean, be dried, obtain carrying silver/bis-
Titanium oxide graphene quantum dot.
(7) surface carrying silver/titanium dioxide graphene quantum dot processes: 0.005 ~ 0.01g graphite oxide is joined 5 ~
In the dispersant (DMSO) of 10mL, ultrasonic agitation (300 ~ 500W ultrasonic power, 200 ~ 300rpm mixing speed) add 0.1 ~
0.3g carries silver/titanium dioxide graphene quantum dot, continues ultrasonic agitation 10 ~ 30min, moves to the microwave that liner is politef
In hydrothermal reaction kettle (50 mL), sealing and be placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 200 ~ 400W, 200 ~ 240
60 ~ 90min is reacted at DEG C;Cooling, filter, dry surface process load silver/titanium dioxide graphene quantum dot.
(8) weigh porous graphene (2 ~ 5 layers, hole size about 3 ~ 6nm) and be configured to the graphite that concentration is 0.2 ~ 0.8mg/ml
Alkene dispersion soln, solvent is water, acetone or dimethyl sulfoxide;(500 ~ 1000W ultrasonic power, 600 ~ 800rpm stirs ultrasonic agitation
Mix speed) 80 ~ 100ml graphene dispersion solution, add graphene quantum dot and the step of the load zinc oxide that step (3) prepares
(7) load silver/titanium dioxide graphene quantum dot (both mass ratioes the are 2:1 ~ 3) ultrasonic agitation 10 ~ 30min prepared, then moves
To the reactor of politef, at 80 ~ 120 DEG C, it is incubated 15 ~ 30min;Cooling, centrifugal, clean, dry antibacterial compound
Material.
There is advantages that
The conductive filler that corrugated board coating of the present invention is used makes the conductive structure of coating finer and close, forms good interlayer
UNICOM's structure, conductive channel is more smooth and easy, thus reduces the resistivity of coating, and surface resistivity can be 102-105Ω scope
Interior regulation;And antimicrobial composite material is compounded with the anti-microbial property of silver particles, titanium dioxide and zinc oxide, compared to single silver
Nano antibacterial agent has a most more longlasting antibacterial effect, antibacterial persistently;Photochromic complex has photochromic effect,
Make product more rich and varied, the shades of colour that can change along with the difference of irradiation light power, it is a splendid legacy, magnificent many
Appearance, increases sentiment and artistic effect to corrugated board;Anion complex can efficient continual anion releasing, have light or
Under no light condition, the uninterrupted anion releasing of equal energy, effectively purifies the organic gas such as air, decomposing formaldehyde, improves Interior Space makings
Amount, also has antibacterial effect, is of value to health.
Conductive filler, anion complex, photochromic complex and antimicrobial composite material are carried out reasonably combined so that
Corrugated board has antistatic characteristic, lasting anti-microbial property, also has characteristic that is photochromic and that purify air.
Detailed description of the invention
Below in conjunction with embodiment, the present invention will be described in detail, and embodiment is only the preferred embodiment of the present invention,
It it not limitation of the invention.
Embodiment 1
A kind of preparation method of antimicrobial composite material, it comprises the following steps:
(1) prepare graphene quantum dot suspension: weigh 0.5g C60 powder, measure the dense sulfur that 50ml mass fraction is 98%
Acid, mixes C60 powder and concentrated sulphuric acid in beaker, and beaker is placed in ice-water bath, stirs with the speed of 500rpm simultaneously, obtains mixed
Close liquid;Weigh 3g potassium permanganate powder, add slowly in above-mentioned mixed liquor;Remove ice-water bath, change water-bath into, keep water-bath
Temperature 30 ~ 40 DEG C, reacts 8h;Rapidly join 200ml pure water, filter, then with the bag filter dialysis 3 that molecular cut off is 1000
My god, obtain graphene quantum dot suspension;100rpm speed stirring graphene quantum dot suspension, simultaneously laser irradiation 30min, swash
Photoirradiation power is 2W.
(2) weighing Zinc oxide quantum dot (particle diameter about 2 ~ 5nm) and be configured to the dispersion liquid that concentration is 0.5mg/ml, solvent is
Water;Ultrasonic agitation (1000W ultrasonic power, 800rpm mixing speed) 80ml zinc oxide fluid dispersion, dropping step (1) prepare one
Schungite alkene quantum dot suspension, continues ultrasonic agitation 60min;Centrifugal, clean, dry, obtain loading the Graphene of zinc oxide
Quantum dot.
(3) surface of the graphene quantum dot of load zinc oxide processes: 0.005g graphite oxide joins the dispersion of 8mL
In agent (DMSO), ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) and add 0.2g load zinc oxide Graphene
Quantum dot, continues ultrasonic agitation 20min, moves in the microwave hydrothermal reaction kettle (50 mL) that liner is politef, after sealing
Being placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 200W, reacts 60min at 240 DEG C;Cooling, filters, dries to obtain surface
The graphene quantum dot of the load zinc oxide processed.
(4) preparation load silver graphene quantum dot: ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) another
Schungite alkene quantum dot suspension, dropping concentration is 0.005mol/L silver nitrate solution, and controlling reaction temperature is 50 DEG C, drips dense
Degree is 0.08mol/L bis-citric acid monohydrate trisodium, continues ultrasonic agitation 90min;Ageing, cleans, and dries to load the graphite of silver
Alkene quantum dot;The volume ratio of graphene quantum dot suspension, silver nitrate solution and two citric acid monohydrate trisodiums is 4:2:1.
(5) by the graphene quantum dot ultrasonic agitation (1000W ultrasonic power, 500rpm mixing speed) of 0.1g load silver
It is scattered in ethanol;Add water and the ammonia of volume ratio 5:1 afterwards, be stirring evenly and then adding into tetraethyl orthosilicate, with load silver
The mass ratio of graphene quantum dot is 1:1, and regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 2 hours;Carry out from
The heart also cleans acquisition precipitation with acetone and deionized water successively;This is deposited in 90o3h it is dried, to obtain SiO under C2Bearing of cladding
Carry the graphene quantum dot of silver.
(6) 0.3mol/L titanium source (titanium source is potassium fluotitanate) is joined in 1 mol/L sulfuric acid solution, mix homogeneously;Add
Enter the SiO that step (5) prepares2Cladding carries silver graphene quantum dot, is warming up to 100 DEG C, after reaction 2h, adjusts pH with concentrated ammonia solution
Value is to 7, after being aged 6 hours, cleans, is dried, and obtains carrying silver/titanium dioxide graphene quantum dot.
(7) surface carrying silver/titanium dioxide graphene quantum dot processes: 0.005g graphite oxide joins dividing of 10mL
In powder (DMSO), ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) also adds 0.3g load silver/titanium dioxide graphite
Alkene quantum dot, continues ultrasonic agitation 30min, moves in the microwave hydrothermal reaction kettle (50 mL) that liner is politef, seals
Being placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 200W, reacts 60min at 240 DEG C;Cooling, filters, dries
The load silver/titanium dioxide graphene quantum dot that surface processes.
(8) weigh porous graphene (2 ~ 5 layers, hole size about 3 ~ 6nm) to be configured to the Graphene that concentration is 0.8mg/ml and divide
Dissipating solution, solvent is water, acetone or dimethyl sulfoxide;Ultrasonic agitation (1000W ultrasonic power, 800rpm mixing speed) 100ml
Graphene dispersion solution, the load silver that the graphene quantum dot of the load zinc oxide that addition step (3) prepares and step (7) prepare/
Titanium dioxide graphene quantum dot (both mass ratioes are 1:1) ultrasonic agitation 30min, then moves to the reactor of politef
In, at 100 DEG C, it is incubated 30min;Cooling, centrifugal, clean, dry to obtain antimicrobial composite material.
Embodiment 2
A kind of preparation method of antimicrobial composite material, it comprises the following steps:
(1) prepare graphene quantum dot suspension: weigh 0.7g C60 powder, measure the dense sulfur that 80ml mass fraction is 98%
Acid, mixes C60 powder and concentrated sulphuric acid in beaker, and beaker is placed in ice-water bath, stirs with the speed of 500rpm simultaneously, obtains mixed
Close liquid;Weigh 2g potassium permanganate powder, add slowly in above-mentioned mixed liquor;Remove ice-water bath, change water-bath into, keep water-bath
Temperature 30 ~ 40 DEG C, reacts 6h;Rapidly join 200ml pure water, filter, then with the bag filter dialysis 3 that molecular cut off is 1000
My god, obtain graphene quantum dot suspension;100rpm speed stirring graphene quantum dot suspension, simultaneously laser irradiation 45min, swash
Photoirradiation power is 1.5W.
(2) weighing Zinc oxide quantum dot (particle diameter about 2 ~ 5nm) and be configured to the dispersion liquid that concentration is 0.8mg/ml, solvent is
Water;Ultrasonic agitation (1000W ultrasonic power, 800rpm mixing speed) 100ml zinc oxide fluid dispersion, dropping step (1) prepares
Half graphene quantum dot suspension, continues ultrasonic agitation 60min;Centrifugal, clean, dry, obtain loading the graphite of zinc oxide
Alkene quantum dot.
(3) surface of the graphene quantum dot of load zinc oxide processes: 0.008g graphite oxide joins dividing of 10mL
In powder (DMSO), ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) and add 0.1g load zinc oxide graphite
Alkene quantum dot, continues ultrasonic agitation 20min, moves in the microwave hydrothermal reaction kettle (50 mL) that liner is politef, seals
Being placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 300W, reacts 60min at 220 DEG C;Cooling, filters, dries to obtain table
The graphene quantum dot of the load zinc oxide that face processes.
(4) preparation load silver graphene quantum dot: ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) another
Schungite alkene quantum dot suspension, dropping concentration is 0.003mol/L silver nitrate solution, and controlling reaction temperature is 50 DEG C, drips dense
Degree is 0.05mol/L bis-citric acid monohydrate trisodium, continues ultrasonic agitation 90min;Ageing, cleans, and dries to load the graphite of silver
Alkene quantum dot;The volume ratio of graphene quantum dot suspension, silver nitrate solution and two citric acid monohydrate trisodiums is 3:3:2.
(5) by the graphene quantum dot ultrasonic agitation (1000W ultrasonic power, 500rpm mixing speed) of 0.3g load silver
It is scattered in ethanol;Add water and the ammonia of volume ratio 4:1 afterwards, be stirring evenly and then adding into tetraethyl orthosilicate, with load silver
The mass ratio of graphene quantum dot is 2:1, and regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 1 hour;Carry out from
The heart also cleans acquisition precipitation with acetone and deionized water successively;This is deposited in 90o3h it is dried, to obtain SiO under C2Bearing of cladding
Carry the graphene quantum dot of silver.
(6) 0.2mol/L titanium source (titanium source is ammonium titanium fluoride) is joined in 1 mol/L sulfuric acid solution, mix homogeneously;Add
Enter the SiO that step (5) prepares2Cladding carries silver graphene quantum dot, is warming up to 100 DEG C, after reaction 3h, adjusts pH with concentrated ammonia solution
Value is to 7, after being aged 6 hours, cleans, is dried, and obtains carrying silver/titanium dioxide graphene quantum dot.
(7) surface carrying silver/titanium dioxide graphene quantum dot processes: 0.008g graphite oxide joins dividing of 8mL
In powder (DMSO), ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) also adds 0.2g load silver/titanium dioxide graphite
Alkene quantum dot, continues ultrasonic agitation 30min, moves in the microwave hydrothermal reaction kettle (50 mL) that liner is politef, seals
Being placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 300W, reacts 60min at 220 DEG C;Cooling, filters, dries to obtain table
The load silver/titanium dioxide graphene quantum dot that face processes.
(8) weigh porous graphene (2 ~ 5 layers, hole size about 3 ~ 6nm) to be configured to the Graphene that concentration is 0.5mg/ml and divide
Dissipating solution, solvent is water, acetone or dimethyl sulfoxide;Ultrasonic agitation (1000W ultrasonic power, 800rpm mixing speed) 80ml stone
Ink alkene dispersion soln, adds the graphene quantum dot of the load zinc oxide that step (3) prepares and load silver/bis-that step (7) is prepared
Titanium oxide graphene quantum dot (both mass ratioes are 2:3) ultrasonic agitation 30min, then moves to the reactor of politef
In, at 100 DEG C, it is incubated 30min;Cooling, centrifugal, clean, dry to obtain antimicrobial composite material.
Embodiment 3
A kind of preparation method of antimicrobial composite material, it comprises the following steps:
(1) prepare graphene quantum dot suspension: weigh 0.8g C60 powder, measure the dense sulfur that 100ml mass fraction is 98%
Acid, mixes C60 powder and concentrated sulphuric acid in beaker, and beaker is placed in ice-water bath, stirs with the speed of 500rpm simultaneously, obtains mixed
Close liquid;Weigh 1g potassium permanganate powder, add slowly in above-mentioned mixed liquor;Remove ice-water bath, change water-bath into, keep water-bath
Temperature 30 ~ 40 DEG C, reacts 5h;Rapidly join 100ml pure water, filter, then with the bag filter dialysis 3 that molecular cut off is 1000
My god, obtain graphene quantum dot suspension;100rpm speed stirring graphene quantum dot suspension, simultaneously laser irradiation 60min, swash
Photoirradiation power is 1W.
(2) weighing Zinc oxide quantum dot (particle diameter about 2 ~ 5nm) and be configured to the dispersion liquid that concentration is 1mg/ml, solvent is water;
Ultrasonic agitation (1000W ultrasonic power, 800rpm mixing speed) 100ml zinc oxide fluid dispersion, the half that dropping step (1) prepares
Graphene quantum dot suspension, continues ultrasonic agitation 60min;Centrifugal, clean, dry, obtain loading the Graphene amount of zinc oxide
Sub-point.
(3) surface of the graphene quantum dot of load zinc oxide processes: 0.01g graphite oxide joins the dispersion of 5mL
In agent (DMSO), ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) and add 0.3g load zinc oxide Graphene
Quantum dot, continues ultrasonic agitation 20min, moves in the microwave hydrothermal reaction kettle (50 mL) that liner is politef, after sealing
Being placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 400W, reacts 60min at 200 DEG C;Cooling, filters, dries to obtain surface
The graphene quantum dot of the load zinc oxide processed.
(4) preparation load silver graphene quantum dot: ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) another
Schungite alkene quantum dot suspension, dropping concentration is 0.001mol/L silver nitrate solution, and controlling reaction temperature is 50 DEG C, drips dense
Degree is 0.01mol/L bis-citric acid monohydrate trisodium, continues ultrasonic agitation 90min;Ageing, cleans, and dries to load the graphite of silver
Alkene quantum dot;The volume ratio of graphene quantum dot suspension, silver nitrate solution and two citric acid monohydrate trisodiums is 3:2:1.
(5) by the graphene quantum dot ultrasonic agitation (1000W ultrasonic power, 500rpm mixing speed) of 0.5g load silver
It is scattered in ethanol;Add water and the ammonia of volume ratio 3:1 afterwards, be stirring evenly and then adding into tetraethyl orthosilicate, with load silver
The mass ratio of graphene quantum dot is 1:1, and regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 3 hours;Carry out from
The heart also cleans acquisition precipitation with acetone and deionized water successively;This is deposited in 90o3h it is dried, to obtain SiO under C2Bearing of cladding
Carry the graphene quantum dot of silver.
(6) 0.1mol/L titanium source (titanium source is potassium fluotitanate, ammonium titanium fluoride, isopropyl titanate or titanium tetrachloride) is joined
In 1 mol/L sulfuric acid solution, mix homogeneously;Add the SiO that step (5) prepares2Cladding carries silver graphene quantum dot, is warming up to
110 DEG C, after reaction 4h, adjust pH value to 7 with concentrated ammonia solution, after being aged 6 hours, clean, be dried, obtain carrying silver/titanium dioxide
Graphene quantum dot.
(7) surface carrying silver/titanium dioxide graphene quantum dot processes: 0.01g graphite oxide joins the dispersion of 5mL
In agent (DMSO), ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) also adds 0.1g load silver/titanium dioxide Graphene
Quantum dot, continues ultrasonic agitation 30min, moves in the microwave hydrothermal reaction kettle (50 mL) that liner is politef, after sealing
Being placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 400W, reacts 60min at 200 DEG C;Cooling, filters, dries to obtain surface
The load silver/titanium dioxide graphene quantum dot processed.
(8) weigh porous graphene (2 ~ 5 layers, hole size about 3 ~ 6nm) to be configured to the Graphene that concentration is 0.2mg/ml and divide
Dissipating solution, solvent is water, acetone or dimethyl sulfoxide;Ultrasonic agitation (1000W ultrasonic power, 800rpm mixing speed) 80ml stone
Ink alkene dispersion soln, adds the graphene quantum dot of the load zinc oxide that step (3) prepares and load silver/bis-that step (7) is prepared
Titanium oxide graphene quantum dot (both mass ratioes are 2:1) ultrasonic agitation 30min, then moves to the reactor of politef
In, at 100 DEG C, it is incubated 30min;Cooling, centrifugal, clean, dry to obtain antimicrobial composite material.
Comparative example 1
The preparation method of a kind of antimicrobial composite material, comprises the following steps:
(1) prepare graphene quantum dot suspension: weigh 0.5g C60 powder, measure the dense sulfur that 100ml mass fraction is 98%
Acid, mixes C60 powder and concentrated sulphuric acid in beaker, and beaker is placed in ice-water bath, stirs with the speed of 500rpm simultaneously, obtains mixed
Close liquid;Weigh 3g potassium permanganate powder, add slowly in above-mentioned mixed liquor;Remove ice-water bath, change water-bath into, keep water-bath
Temperature 30 ~ 40 DEG C, reacts 8h;Rapidly join 200ml pure water, filter, then with the bag filter dialysis 3 that molecular cut off is 1000
My god, obtain graphene quantum dot suspension.
(2) graphene quantum dot of preparation load silver: ultrasonic agitation (500W ultrasonic power, 300rpm mixing speed) 50ml
Graphene quantum dot suspension, dropping concentration is 0.001mol/L silver nitrate solution, and controlling reaction temperature is 50 DEG C, drips concentration
For 0.01mol/L bis-citric acid monohydrate trisodium, continue ultrasonic agitation 90min;Ageing, cleans, and dries to load the Graphene of silver
Quantum dot;The volume ratio of graphene quantum dot suspension, silver nitrate solution and two citric acid monohydrate trisodiums is 3:2:1.
(3) by the graphene quantum dot ultrasonic agitation (1000W ultrasonic power, 500rpm mixing speed) of 0.5g load silver
It is scattered in ethanol;Add water and the ammonia of volume ratio 3:1 afterwards, be stirring evenly and then adding into tetraethyl orthosilicate, with load silver
The mass ratio of graphene quantum dot is 1:1, and regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 3 hours;Carry out from
The heart also cleans acquisition precipitation with acetone and deionized water successively;This is deposited in 90o3h it is dried, to obtain SiO under C2Bearing of cladding
Carry the graphene quantum dot of silver.
(4) weigh porous graphene (2 ~ 5 layers, hole size about 3 ~ 6nm) to be configured to the Graphene that concentration is 0.2mg/ml and divide
Dissipating solution, solvent is water, acetone or dimethyl sulfoxide;Ultrasonic agitation (1000W ultrasonic power, 800rpm mixing speed) 100ml
Graphene dispersion solution, adds the SiO that step (3) prepares2Cladding carries silver graphene quantum dot, ultrasonic agitation 30min, then moves
To the reactor of politef, at 100 DEG C, it is incubated 30min;Cooling, centrifugal, clean, dry to obtain antimicrobial composite material.
Comparative example 2
The preparation method of a kind of antimicrobial composite material, comprises the following steps: weigh porous graphene (2 ~ 5 layers, hole size about 3 ~
6nm) being configured to the graphene dispersion solution that concentration is 0.5mg/ml, solvent is water, acetone or dimethyl sulfoxide;Ultrasonic agitation
(1000W ultrasonic power, 800rpm mixing speed) 100ml graphene dispersion solution, dropping concentration is 0.003mol/L silver nitrate
Solution, controlling reaction temperature is 50 DEG C, and dropping concentration is 0.04mol/L bis-citric acid monohydrate trisodium, continues ultrasonic agitation
90min;Ageing, cleans, and dries to load the Graphene antibiosis material of silver.
Detailed process and step that the antibacterial activity of the antimicrobial composite material prepared by the present invention is evaluated are as follows:
The antibacterial of test is respectively staphylococcus aureus and escherichia coli;With reference to minimal inhibitory concentration (minimal
Inhibitory concentration, MIC) method of testing (Xiang Cai, Shaozao Tan, Aili Yu,
Jinglin Zhang, Jiahao Liu, Wenjie Mai, Zhenyou Jiang. Sodium1-
naphthalenesulfonate- functioned reduced graphene oxide stabilize the silver
nanoparticles with lower cytotoxicity and long-term antibacterial
Activity.Chemistry-An Asian Journal. 2012,7 (7): 1664-1670.), first weigh with electronic balance
Antimicrobial composite material prepared by a certain amount of each embodiment and comparative example, by antimicrobial composite material MH meat soup to the most serial dilute
Release variable concentrations, be added separately in the MH culture fluid containing certain bacterium amount, make the concentration of final bacterium solution be about 106Individual/mL,
Then shaken cultivation 24h at 37 DEG C, observes its result, as shown in table 1.It is not added with the test tube of antimicrobial sample as control tube, nothing
The experiment tube liquid-transparent of bacteria growing, measures the minimum inhibitory concentration (MIC) for this antibacterial with the antibacterial of the longest tube.
Table 1: embodiment 1 ~ 3 and the anti-microbial property of comparative example 1,2 antimicrobial composite material
Long-lasting test: put a conical flask in 40 DEG C of thermostatic water bath, adds prepared by each embodiment of 1g and comparative example in bottle
Antimicrobial composite material sample and 200mL saline (0.9mass%), and in water, soak 6 respectively, 24, sample after 72h, measure it
Low Mlc, as shown in table 2.
Table 2: the long acting antibiotic activity of embodiment 1 ~ 3 and comparative example 1,2 antimicrobial composite material
Embodiment 4
A kind of preparation method of photochromic corrugated board, it comprises the following steps:
(1) aqueous film-forming resin is dissolved in half mixed solution, after mix homogeneously, adds antibacterial/anion compound, high
Speed dispersion 90min, obtains antibacterial/negative solution;Described antibacterial/anion compound by embodiment 2 prepare antibacterial compound
Material and anion complex are obtained by mixing by weight 4:3;
(2) dispersant, auxiliary film forming matter are added in second half mixed solution, after mix homogeneously, add conduction/photochromic
Compound, high speed dispersion 90min, obtain conduction/photochromic solution;Described conduction/photochromic compound is by conductive filler
It is obtained by mixing by weight 2:1 with photochromic complex;
(3), after mixing antibacterial/negative solution and conduction/photochromic solution, it is sequentially added into defoamer, thickening agent and modification
Agent, obtains antibiotic antistatic coating after high speed dispersion;
(4) antibiotic antistatic paint brush is applied to corrugated board and makes photochromic corrugated board.Wherein,
Described antibiotic antistatic coating is made up of the component of following weight proportion: 30 parts of waterborne film-forming fat, assists film forming matter 0.2
Part, mixed solution 24 parts, conduction/photochromic compound 8 parts, defoamer 0.1 part, dispersant 0.2 part, thickening agent 0.1 part, change
Property agent 0.1 part, antibacterial/anion compound 2 parts.
Wherein, described anion complex prepares by the following method: by 8% coral fossil, 12% tourmaline, 24% albumen
Stone, 3% serpentine, 8% Maifanitum, 4% rare ice stone, 3% hokutolite, 5% doctor Wang Shi, 8% shell, 10% kieselguhr, 3% 3 oxidation two
Ferrum, 1% aluminium sesquioxide, 8% zirconium oxide and 3% zirconium phosphate mix homogeneously, add in grinding equipment and carry out superfine grinding, until
Grain diameter Distribution, at 50 ~ 80nm, is sieved, and is dried, can be prepared by anion powder;Take 5g anion powder and be scattered in 150ml ultra-pure water
In, water bath sonicator 2h obtains the most even stable dispersion liquid;Add 1g porous carbon, ultrasonic agitation (150W, 200rpm) 2h, allow and receive
Rice material is well in porous carbon hole, and repeatedly sucking filtration cleans, and is placed in confined space, carries out evacuation → heating pressurization and follow
5 times (pumpdown time is 20min to ring;Being pressurised into and be passed through high temperature and high pressure gas, gas heating-up temperature is 90 DEG C, is forced into
0.4Mpa, pressurize 30min), obtain anion complex.
Wherein, described photochromic complex prepares by the following method: under nitrogen environment, is 0.4mol/L's by concentration
Protonic acid solution and the DBSA that concentration is 0.3mol/L mix with volume ratio 3:2, are simultaneously introduced photochromic powder
(Nd2O3、Pr2O3、La2O3And Yb2O3It is obtained by mixing by weight 1:2:1:3), add aniline, the change of light after magnetic agitation 90min
Toner and aniline mass ratio are 1:8;After continuously stirred 90min, dropwise dripping Ammonium persulfate., aniline with Ammonium persulfate. mol ratio is
1:1;20h is reacted at 20 DEG C~30 DEG C;Acetone, deionized water wash final vacuum for several times is dried, the nano polyaniline/photic of milling to obtain
Color-change powder complex;6g nano polyaniline/photochromic flour complexes ultrasonic agitation is scattered in aqueous solution;Add body afterwards
Amass the water than 4:1 and ammonia, be stirring evenly and then adding into the tetraethyl orthosilicate (matter with nano polyaniline/photochromic flour complexes
Amount ratio is 5:3), regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 60min;Be centrifuged and successively with acetone and
Deionized water cleans and obtains precipitation;This is deposited at 90 DEG C and is dried 3h, compound to obtain nano polyaniline/photochromic powder
Thing/SiO2;By nano polyaniline/photochromic flour complexes/SiO2It is placed under argon gas atmosphere and carries out 800 DEG C of heat treatment 1h, remove
Polyaniline, obtains photochromic powder/porous SiO2, the most photochromic complex.
Wherein, described conductive filler is by porous carbon, CNT, white carbon black, graphite and nanometer aluminium powder 4:2:1 in mass ratio:
1:2 mixes composition;Described conductive filler preparation method is as follows: by 5g cellulose, 12mg polystyrolsulfon acid potassium and 30ml water add
Enter in 100ml water heating kettle, in 180 DEG C of baking ovens seal reaction 10h, cleaned after drying, forge under the air atmosphere of 900 DEG C
Burn 1h, obtain porous carbon;CNT, nanometer aluminium powder, nano-graphite are dispersed in the aqueous solution of 120ml, immerse porous carbon
2h, allow nano material well in duct, then sucking filtration;The filter cake of sucking filtration gained is immersed in 50ml sooty water solution,
90min, the most again sucking filtration;The filter cake distilled water wash of sucking filtration gained again, 120 DEG C of drying, to obtain final product under vacuum
Conductive filler.
Embodiment 5
A kind of preparation method of photochromic corrugated board, it comprises the following steps:
(1) aqueous film-forming resin is dissolved in half mixed solution, after mix homogeneously, adds antibacterial/anion compound, high
Speed dispersion 80min, obtains antibacterial/negative solution;Described antibacterial/anion compound by embodiment 2 prepare antibacterial compound
Material and anion complex are obtained by mixing by weight 4:3;
(2) dispersant, auxiliary film forming matter are added in second half mixed solution, after mix homogeneously, add conduction/photochromic
Compound, high speed dispersion 90min, obtain conduction/photochromic solution;Described conduction/photochromic compound is by conductive filler
It is obtained by mixing by weight 2:1 with photochromic complex;
(3), after mixing antibacterial/negative solution and conduction/photochromic solution, it is sequentially added into defoamer, thickening agent and modification
Agent, obtains antibiotic antistatic coating after high speed dispersion;
(4) antibiotic antistatic paint brush is applied to corrugated board and makes photochromic corrugated board.Wherein,
Described antibiotic antistatic coating is made up of the component of following weight proportion: 30 parts of waterborne film-forming fat, assists film forming matter 0.2
Part, mixed solution 24 parts, conduction/photochromic compound 5 parts, defoamer 0.1 part, dispersant 0.2 part, thickening agent 0.1 part, change
Property agent 0.1 part, antibacterial/anion compound 4 parts.
Wherein, described anion complex prepares by the following method: by 8% coral fossil, 12% tourmaline, 24% albumen
Stone, 3% serpentine, 8% Maifanitum, 4% rare ice stone, 3% hokutolite, 5% doctor Wang Shi, 8% shell, 10% kieselguhr, 3% 3 oxidation two
Ferrum, 1% aluminium sesquioxide, 8% zirconium oxide and 3% zirconium phosphate mix homogeneously, add in grinding equipment and carry out superfine grinding, until
Grain diameter Distribution, at 50 ~ 80nm, is sieved, and is dried, can be prepared by anion powder;Take 5g anion powder and be scattered in 150ml ultra-pure water
In, water bath sonicator 2h obtains the most even stable dispersion liquid;Add 1g porous carbon, ultrasonic agitation (150W, 200rpm) 2h, allow and receive
Rice material is well in porous carbon hole, and repeatedly sucking filtration cleans, and is placed in confined space, carries out evacuation → heating pressurization and follow
5 times (pumpdown time is 20min to ring;Being pressurised into and be passed through high temperature and high pressure gas, gas heating-up temperature is 90 DEG C, is forced into
0.4Mpa, pressurize 30min), obtain anion complex.
Wherein, described photochromic complex prepares by the following method: under nitrogen environment, is 0.4mol/L's by concentration
Protonic acid solution and the DBSA that concentration is 0.3mol/L mix with volume ratio 3:2, are simultaneously introduced photochromic powder
(Nd2O3、Pr2O3、La2O3And Yb2O3It is obtained by mixing by weight 1:2:1:3), add aniline, the change of light after magnetic agitation 90min
Toner and aniline mass ratio are 1:8;After continuously stirred 90min, dropwise dripping Ammonium persulfate., aniline with Ammonium persulfate. mol ratio is
1:1;20h is reacted at 20 DEG C~30 DEG C;Acetone, deionized water wash final vacuum for several times is dried, the nano polyaniline/photic of milling to obtain
Color-change powder complex;6g nano polyaniline/photochromic flour complexes ultrasonic agitation is scattered in aqueous solution;Add body afterwards
Amass the water than 4:1 and ammonia, be stirring evenly and then adding into the tetraethyl orthosilicate (matter with nano polyaniline/photochromic flour complexes
Amount ratio is 5:3), regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 60min;Be centrifuged and successively with acetone and
Deionized water cleans and obtains precipitation;This is deposited at 90 DEG C and is dried 3h, compound to obtain nano polyaniline/photochromic powder
Thing/SiO2;By nano polyaniline/photochromic flour complexes/SiO2It is placed under argon gas atmosphere and carries out 800 DEG C of heat treatment 1h, remove
Polyaniline, obtains photochromic powder/porous SiO2, the most photochromic complex.
Wherein, described conductive filler is by porous carbon, CNT, white carbon black, graphite and nanometer aluminium powder 4:2:1 in mass ratio:
1:2 mixes composition;Described conductive filler preparation method is as follows: by 5g cellulose, 12mg polystyrolsulfon acid potassium and 30ml water add
Enter in 100ml water heating kettle, in 180 DEG C of baking ovens seal reaction 10h, cleaned after drying, forge under the air atmosphere of 900 DEG C
Burn 1h, obtain porous carbon;CNT, nanometer aluminium powder, nano-graphite are dispersed in the aqueous solution of 120ml, immerse porous carbon
2h, allow nano material well in duct, then sucking filtration;The filter cake of sucking filtration gained is immersed in 50ml sooty water solution,
90min, the most again sucking filtration;The filter cake distilled water wash of sucking filtration gained again, 120 DEG C of drying, to obtain final product under vacuum
Conductive filler.
Embodiment 6
A kind of preparation method of photochromic corrugated board, it comprises the following steps:
(1) aqueous film-forming resin is dissolved in half mixed solution, after mix homogeneously, adds antibacterial/anion compound, high
Speed dispersion 60min, obtains antibacterial/negative solution;Described antibacterial/anion compound by embodiment 2 prepare antibacterial compound
Material and anion complex are obtained by mixing by weight 4:3;
(2) dispersant, auxiliary film forming matter are added in second half mixed solution, after mix homogeneously, add conduction/photochromic
Compound, high speed dispersion 60min, obtain conduction/photochromic solution;Described conduction/photochromic compound is by conductive filler
It is obtained by mixing by weight 2:1 with photochromic complex;
(3), after mixing antibacterial/negative solution and conduction/photochromic solution, it is sequentially added into defoamer, thickening agent and modification
Agent, obtains antibiotic antistatic coating after high speed dispersion;
(4) antibiotic antistatic paint brush is applied to corrugated board and makes photochromic corrugated board.Wherein,
Described antibiotic antistatic coating is made up of the component of following weight proportion: 30 parts of waterborne film-forming fat, assists film forming matter 0.2
Part, mixed solution 24 parts, conduction/photochromic compound 3 parts;, defoamer 0.1 part, dispersant 0.2 part, thickening agent 0.1 part,
Modifying agent 0.1 part, antibacterial/anion compound 6 parts.
Wherein, described anion complex prepares by the following method: by 8% coral fossil, 12% tourmaline, 24% albumen
Stone, 3% serpentine, 8% Maifanitum, 4% rare ice stone, 3% hokutolite, 5% doctor Wang Shi, 8% shell, 10% kieselguhr, 3% 3 oxidation two
Ferrum, 1% aluminium sesquioxide, 8% zirconium oxide and 3% zirconium phosphate mix homogeneously, add in grinding equipment and carry out superfine grinding, until
Grain diameter Distribution, at 50 ~ 80nm, is sieved, and is dried, can be prepared by anion powder;Take 5g anion powder and be scattered in 150ml ultra-pure water
In, water bath sonicator 2h obtains the most even stable dispersion liquid;Add 1g porous carbon, ultrasonic agitation (150W, 200rpm) 2h, allow and receive
Rice material is well in porous carbon hole, and repeatedly sucking filtration cleans, and is placed in confined space, carries out evacuation → heating pressurization and follow
5 times (pumpdown time is 20min to ring;Being pressurised into and be passed through high temperature and high pressure gas, gas heating-up temperature is 90 DEG C, is forced into
0.4Mpa, pressurize 30min), obtain anion complex.
Wherein, described photochromic complex prepares by the following method: under nitrogen environment, is 0.4mol/L's by concentration
Protonic acid solution and the DBSA that concentration is 0.3mol/L mix with volume ratio 3:2, are simultaneously introduced photochromic powder
(Nd2O3、Pr2O3、La2O3And Yb2O3It is obtained by mixing by weight 1:2:1:3), add aniline, the change of light after magnetic agitation 90min
Toner and aniline mass ratio are 1:8;After continuously stirred 90min, dropwise dripping Ammonium persulfate., aniline with Ammonium persulfate. mol ratio is
1:1;20h is reacted at 20 DEG C~30 DEG C;Acetone, deionized water wash final vacuum for several times is dried, the nano polyaniline/photic of milling to obtain
Color-change powder complex;6g nano polyaniline/photochromic flour complexes ultrasonic agitation is scattered in aqueous solution;Add body afterwards
Amass the water than 4:1 and ammonia, be stirring evenly and then adding into the tetraethyl orthosilicate (matter with nano polyaniline/photochromic flour complexes
Amount ratio is 5:3), regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 60min;Be centrifuged and successively with acetone and
Deionized water cleans and obtains precipitation;This is deposited at 90 DEG C and is dried 3h, compound to obtain nano polyaniline/photochromic powder
Thing/SiO2;By nano polyaniline/photochromic flour complexes/SiO2It is placed under argon gas atmosphere and carries out 800 DEG C of heat treatment 1h, remove
Polyaniline, obtains photochromic powder/porous SiO2, the most photochromic complex.
Wherein, described conductive filler is by porous carbon, CNT, white carbon black, graphite and nanometer aluminium powder 4:2:1 in mass ratio:
1:2 mixes composition;Described conductive filler preparation method is as follows: by 5g cellulose, 12mg polystyrolsulfon acid potassium and 30ml water add
Enter in 100ml water heating kettle, in 180 DEG C of baking ovens seal reaction 10h, cleaned after drying, forge under the air atmosphere of 900 DEG C
Burn 1h, obtain porous carbon;CNT, nanometer aluminium powder, nano-graphite are dispersed in the aqueous solution of 120ml, immerse porous carbon
2h, allow nano material well in duct, then sucking filtration;The filter cake of sucking filtration gained is immersed in 50ml sooty water solution,
90min, the most again sucking filtration;The filter cake distilled water wash of sucking filtration gained again, 120 DEG C of drying, to obtain final product under vacuum
Conductive filler.
Comparative example 3
A kind of preparation method of photochromic corrugated board, it comprises the following steps:
(1) aqueous film-forming resin is dissolved in half mixed solution, after mix homogeneously, adds nano silver antimicrobials and anion
Powder, high speed dispersion 60min, obtain antibacterial/negative solution.Described nano silver antimicrobials and anion powder weight ratio are 4:3;
Described anion powder prepares by the following method: by 8% coral fossil, 12% tourmaline, 24% opal, 3% serpentine, 8%
Maifanitum, 4% rare ice stone, 3% hokutolite, 5% doctor Wang Shi, 8% shell, 10% kieselguhr, 3% iron sesquioxide, 1% aluminium sesquioxide,
8% zirconium oxide and 3% zirconium phosphate mix homogeneously, add in grinding equipment and carry out superfine grinding, until particle diameter distribution 50 ~
80nm, sieves, and is dried, can be prepared by anion powder;
(2) dispersant, auxiliary film forming matter are added in second half mixed solution, after mix homogeneously, add conductive filler and photic
Variable color complex, high speed dispersion 60min, obtain conduction/photochromic solution.Described conductive filler and photochromic complex weight
Amount ratio is 2:1;
Described conductive filler is made up of CNT, white carbon black, graphite 2:1:1 in mass ratio mixing;
Described photochromic powder is Nd2O3、Pr2O3、La2O3And Yb2O3It is obtained by mixing by weight 1:2:1:3;
(3), after mixing antibacterial/negative solution and conduction/photochromic solution, it is sequentially added into defoamer, thickening agent and modification
Agent, obtains antibiotic antistatic coating after high speed dispersion.
(4) antibiotic antistatic paint brush is applied to corrugated board and makes photochromic corrugated board.Wherein,
Described antibiotic antistatic coating is made up of the component of following weight proportion: 30 parts of waterborne film-forming fat, assists film forming matter 0.2
Part, mixed solution 25 parts, (conductive filler, photochromic powder) 5 parts, defoamer 0.2 part, dispersant 0.3 part, thickening agent 0.1 part,
Modifying agent 0.1 part, (nano silver antimicrobials, anion powder) 4 parts.
Testing the photochromic corrugated board of embodiment 4 ~ 6 and comparative example 3, result is as follows:
Antibacterial Evaluation for Uniformity: choose 100 regions on same corrugated board and carry out sterilizing test, the data recorded are carried out
Uniformity Analysis, by the uniformity=100* (1-standard deviation/meansigma methods).When the uniformity is more than 97%, then be labeled as ▲;When all
Evenness more than 90% and less than 97%, is then labeled as ☆;When the uniformity is less than 90%, then it is labeled as.
Embodiment described above only have expressed embodiments of the present invention, and it describes more concrete and detailed, but can not
Therefore the restriction to the scope of the claims of the present invention it is interpreted as, as long as using the skill that the form of equivalent or equivalent transformation is obtained
Art scheme, all should fall within the scope and spirit of the invention.
Claims (10)
1. a preparation method for photochromic corrugated board, it comprises the following steps:
(1) aqueous film-forming resin is dissolved in half mixed solution, after mix homogeneously, adds antibacterial/anion compound, high
Speed dispersion 60 ~ 90min, obtains antibacterial/negative solution;Described antibacterial/anion compound by antimicrobial composite material and bear from
Sub-complex is obtained by mixing by weight 3 ~ 5:2 ~ 4;
(2) dispersant, auxiliary film forming matter are added in second half mixed solution, after mix homogeneously, add conduction/photochromic
Compound, high speed dispersion 60 ~ 90min, obtain conduction/photochromic solution;Described conduction/photochromic compound is filled out by conduction
Material and photochromic complex are obtained by mixing by weight 1 ~ 3:1 ~ 2;
(3), after mixing antibacterial/negative solution and conduction/photochromic solution, it is sequentially added into defoamer, thickening agent and modification
Agent, obtains antibiotic antistatic coating after high speed dispersion;
(4) antibiotic antistatic paint brush is applied to corrugated board and makes photochromic corrugated board.
The preparation method of photochromic corrugated board the most according to claim 1, it is characterised in that described conductive filler system
Preparation Method is as follows: by 5g cellulose, and 12mg polystyrolsulfon acid potassium and 30ml water join in 100ml water heating kettle, 180 DEG C of bakings
In case seal reaction 10h, cleaned after drying, under the air atmosphere of 900 DEG C calcine 1h, obtain porous carbon;By CNT,
Nanometer aluminium powder, nano-graphite are dispersed in the aqueous solution of 120ml, immerse porous carbon 1 ~ 2h, allow nano material well into duct
In, then sucking filtration;The filter cake of sucking filtration gained is immersed in 50ml sooty water solution, 30 ~ 60min, the most again sucking filtration;Again take out
The filter cake distilled water wash of filter gained, 120 DEG C of drying, obtain conductive filler under vacuum.
The preparation method of photochromic corrugated board the most according to claim 1, it is characterised in that described photochromic multiple
Compound preparation method is as follows: under nitrogen environment, by protonic acid solution that concentration is 0.05 ~ 0.5mol/L and concentration be 0.05 ~
The DBSA of 0.5mol/L mixes with volume ratio 3:1 ~ 3, is simultaneously introduced photochromic powder, and magnetic agitation 60 ~
Adding aniline after 120min, the color-change powder of light and aniline mass ratio are 1:5 ~ 10;After continuously stirred 60 ~ 90min, dropwise dripped
Ammonium sulfate, aniline and Ammonium persulfate. mol ratio are 1:1;12 ~ 36h is reacted at 20 DEG C~30 DEG C;Acetone, deionized water wash are for several times
Final vacuum is dried, nano polyaniline/photochromic flour complexes of milling to obtain;1 ~ 10g nano polyaniline/photochromic powder is combined
Thing ultrasonic agitation is scattered in aqueous solution;Add water and the ammonia of volume ratio 4:1 afterwards, be stirring evenly and then adding into positive silicic acid second
Ester, regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 60 ~ 90min;It is centrifuged and successively with acetone and deionization
Water cleans and obtains precipitation;This is deposited at 90 DEG C and is dried 3h, to obtain nano polyaniline/photochromic flour complexes/SiO2;
By nano polyaniline/photochromic flour complexes/SiO2It is placed under argon gas atmosphere and carries out 800 ~ 1000 DEG C of heat treatment 1 ~ 2h, remove
Polyaniline, photochromic powder/porous SiO2, the most photochromic complex.
The preparation method of photochromic corrugated board the most according to claim 1, it is characterised in that described anion is combined
Thing preparation method is as follows: takes 1 ~ 10g anion powder and is scattered in 100 ~ 200ml ultra-pure water, and water bath sonicator 1 ~ 2h obtains the most even
Stable dispersion liquid;Add 1 ~ 3g porous carbon, ultrasonic agitation 1 ~ 2h, allow nano material well in porous carbon hole, repeatedly
Sucking filtration cleans, and is placed in confined space, carries out evacuation → heating pressurized circulation 3 ~ 8 times, obtain anion complex;Wherein, negative
Ion powder, preparation method thereof is as follows: by 5 ~ 10% coral fossil, 10 ~ 15% tourmaline, 20 ~ 30% opals, 1 ~ 3% serpentine, 5 ~ 10%
Maifanitum, 3 ~ 5% rare ice stone, 3 ~ 5% hokutolites, 1 ~ 5% doctor Wang Shi, 5 ~ 10% shells, 10 ~ 15% kieselguhr, 1 ~ 3% 3 oxidation two
Ferrum, 1 ~ 3% aluminium sesquioxide, 3 ~ 8% zirconium oxides and 1 ~ 4% zirconium phosphate mix homogeneously, add in grinding equipment and carry out superfine grinding,
Until particle diameter distribution is at 50 ~ 80nm, sieve, be dried, can be prepared by anion powder.
The preparation method of photochromic corrugated board the most according to claim 1, it is characterised in that described antibacterial composite wood
The preparation method of material is as follows:
(1) graphene quantum dot suspension is prepared: 100rpm speed stirs graphene quantum dot suspension, simultaneously laser irradiation 30
~ 60min, laser irradiation power is 1 ~ 2W;
(2) weighing Zinc oxide quantum dot and be configured to the dispersion liquid that concentration is 0.5 ~ 1mg/ml, solvent is water;Ultrasonic agitation 80 ~
100ml zinc oxide fluid dispersion, the half graphene quantum dot suspension that dropping step (1) prepares, continue ultrasonic agitation 30 ~
60min;Centrifugal, clean, dry, obtain loading the graphene quantum dot of zinc oxide;
(3) surface of the graphene quantum dot of load zinc oxide processes;
(4) graphene quantum dot of preparation load silver: second half graphene quantum dot suspension of ultrasonic agitation, dropping silver nitrate is molten
Liquid, controlling reaction temperature is 45 ~ 60 DEG C, drips two citric acid monohydrate trisodiums, continues ultrasonic agitation 60 ~ 120min;Ageing, clearly
Wash, dry to load the graphene quantum dot of silver;
(5) the graphene quantum dot ultrasonic agitation of 0.1 ~ 0.5g load silver is scattered in ethanol;Add volume ratio 3 ~ 5:1 afterwards
Water and ammonia, be stirring evenly and then adding into tetraethyl orthosilicate, regulation pH value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 1 ~ 3
Hour;It is centrifuged and cleans with acetone and deionized water successively obtaining precipitation;It is dried to obtain SiO2The stone of the load silver of cladding
Ink alkene quantum dot;
(6) 0.1 ~ 0.3mol/L titanium source is joined in 1mol/L sulfuric acid solution, mix homogeneously;Add the SiO that step (5) prepares2
Cladding carries silver graphene quantum dot, is warming up to 100 ~ 110 DEG C, after reaction 2 ~ 4h, with concentrated ammonia solution tune pH value to 7, and ageing, clearly
Wash, be dried, obtain carrying silver/titanium dioxide graphene quantum dot;
(7) surface carrying silver/titanium dioxide graphene quantum dot processes: 0.005 ~ 0.01g graphite oxide is joined 5 ~ 10mL
Dispersant in, ultrasonic agitation also adds 0.1 ~ 0.3g and carries silver/titanium dioxide graphene quantum dot, continue ultrasonic agitation 10 ~
30min, moves in the microwave hydrothermal reaction kettle that liner is politef, seals and is placed in microwave assisted hydrothermal synthesis apparatus,
Microwave power is 200 ~ 400W, reacts 60 ~ 90min at 200 ~ 240 DEG C;Cooling, filter, dry surface process load silver/bis-
Titanium oxide graphene quantum dot;
(8) weigh porous graphene and be configured to the graphene dispersion solution that concentration is 0.2 ~ 0.8mg/ml;Ultrasonic agitation 80 ~
100ml graphene dispersion solution, the graphene quantum dot of the load zinc oxide that addition step (3) prepares and step (7) prepare
Carry silver/titanium dioxide graphene quantum dot, ultrasonic agitation 10 ~ 30min, then move in the reactor of politef, 80 ~
15 ~ 30min it is incubated at 120 DEG C;Cooling, centrifugal, clean, dry to obtain antimicrobial composite material.
The preparation method of photochromic corrugated board the most according to claim 3, it is characterised in that described Graphene quantum
The preparation method of some suspension is as follows: weighs 0.5 ~ 0.8g C60 powder, measures the dense sulfur that 50 ~ 100ml mass fraction is 98%
Acid, mixes C60 powder and concentrated sulphuric acid in beaker, and beaker is placed in ice-water bath, stirs with the speed of 300 ~ 500rpm simultaneously,
Obtain mixed liquor;Weigh 0.5 ~ 3g potassium permanganate powder, add slowly in above-mentioned mixed liquor;Remove ice-water bath, change water-bath into,
Keep bath temperature 30 ~ 40 DEG C, react 5 ~ 8h;Rapidly join 100 ~ 200ml pure water, filter, then with molecular cut off be
The bag filter of 1000 is dialysed 3 days, obtains graphene quantum dot suspension;100rpm speed stirring graphene quantum dot suspension, with
Shi Jiguang irradiation 30 ~ 60min, laser irradiation power is 1 ~ 2W.
The preparation method of photochromic corrugated board the most according to claim 3, it is characterised in that described porous graphene
It is 2 ~ 5 layers, the porous graphene of hole size about 3 ~ 6nm.
The preparation method of photochromic corrugated board the most according to claim 3, it is characterised in that described load silver/dioxy
The surface changing titanium graphene quantum dot processes particularly as follows: joined by 0.005 ~ 0.01g graphite oxide in the dispersant of 5 ~ 10mL,
Ultrasonic agitation also adds 0.1 ~ 0.3g load silver/titanium dioxide graphene quantum dot, continues ultrasonic agitation 10 ~ 30min, moves to liner
For in the microwave hydrothermal reaction kettle of politef, sealing and be placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 200 ~
400W, reacts 60 ~ 90min at 200 ~ 240 DEG C;Cooling, filter, dry surface process load silver/titanium dioxide Graphene amount
Sub-point.
The preparation method of photochromic corrugated board the most according to claim 3, it is characterised in that described titanium source is fluorine titanium
Acid potassium, ammonium titanium fluoride, isopropyl titanate or titanium tetrachloride.
The preparation method of photochromic corrugated board the most according to claim 3, it is characterised in that described load aoxidizes
The surface of the graphene quantum dot of zinc processes particularly as follows: joined by 0.005 ~ 0.01g graphite oxide in the dispersant of 5 ~ 10mL,
Ultrasonic agitation and add 0.1 ~ 0.3g load zinc oxide graphene quantum dot, continue ultrasonic agitation 10 ~ 30min, move to liner
For in the microwave hydrothermal reaction kettle of politef, sealing and be placed in microwave assisted hydrothermal synthesis apparatus, microwave power is 200 ~
400W, reacts 60 ~ 90min at 200 ~ 240 DEG C;Cooling, filter, dry surface process load zinc oxide Graphene quantum
Point.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107237208A (en) * | 2017-07-04 | 2017-10-10 | 济南大学 | A kind of preparation method of three-dimensional grapheme zinc oxide compound nano paper |
CN108035188A (en) * | 2017-12-11 | 2018-05-15 | 安徽鑫光纸业股份有限公司 | A kind of preparation method of antistatic carbon fiber function and service paper |
CN109056344A (en) * | 2018-06-15 | 2018-12-21 | 浙江圣山科纺有限公司 | The production technology of photochromic umbrella cloth |
CN109403152A (en) * | 2018-11-22 | 2019-03-01 | 慈溪市圣保彩印包装有限公司 | A kind of corrugated board with effectiveness |
CN109881297A (en) * | 2019-03-01 | 2019-06-14 | 苏州城邦达力材料科技有限公司 | A kind of variable composition of electric property, nanofiber and preparation method thereof |
Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5822151A (en) * | 1981-08-04 | 1983-02-09 | 旭化成株式会社 | Manufacture of composite corrugated cardboard |
CN101806016A (en) * | 2010-03-22 | 2010-08-18 | 浙江科技学院 | Fruit fresh-keeping paperboard and preparation method thereof |
CN102635038A (en) * | 2012-03-31 | 2012-08-15 | 宁波亚洲浆纸业有限公司 | Production method for antibacterial paperboards |
CN103803527A (en) * | 2014-01-27 | 2014-05-21 | 浙江大学 | Preparation method of porous carbon and product thereof |
CN104294584A (en) * | 2014-09-29 | 2015-01-21 | 黄勇 | Fabric with doped-type graphene coating and preparation process of fabric |
CN104472542A (en) * | 2014-12-18 | 2015-04-01 | 中山大学 | Method for preparing graphene/silver/titanium dioxide composite material |
CN104629268A (en) * | 2013-11-06 | 2015-05-20 | 金发科技股份有限公司 | Spraying-free polyester composition having special aesthetic effects and preparation method and application thereof |
CN104710733A (en) * | 2015-04-07 | 2015-06-17 | 嘉兴学院 | Heat-resistant antimicrobial polylactic acid material and preparation method thereof |
CN104943992A (en) * | 2014-03-31 | 2015-09-30 | 天津科技大学 | Plant antibacterial component based slow-releasing antibacterial fresh-keeping carton and production method thereof |
CN105442388A (en) * | 2014-09-02 | 2016-03-30 | 王萍 | Waterproof antibacterial paper |
-
2016
- 2016-08-29 CN CN201610748932.3A patent/CN106283858A/en active Pending
Patent Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5822151A (en) * | 1981-08-04 | 1983-02-09 | 旭化成株式会社 | Manufacture of composite corrugated cardboard |
CN101806016A (en) * | 2010-03-22 | 2010-08-18 | 浙江科技学院 | Fruit fresh-keeping paperboard and preparation method thereof |
CN102635038A (en) * | 2012-03-31 | 2012-08-15 | 宁波亚洲浆纸业有限公司 | Production method for antibacterial paperboards |
CN104629268A (en) * | 2013-11-06 | 2015-05-20 | 金发科技股份有限公司 | Spraying-free polyester composition having special aesthetic effects and preparation method and application thereof |
CN103803527A (en) * | 2014-01-27 | 2014-05-21 | 浙江大学 | Preparation method of porous carbon and product thereof |
CN104943992A (en) * | 2014-03-31 | 2015-09-30 | 天津科技大学 | Plant antibacterial component based slow-releasing antibacterial fresh-keeping carton and production method thereof |
CN105442388A (en) * | 2014-09-02 | 2016-03-30 | 王萍 | Waterproof antibacterial paper |
CN104294584A (en) * | 2014-09-29 | 2015-01-21 | 黄勇 | Fabric with doped-type graphene coating and preparation process of fabric |
CN104472542A (en) * | 2014-12-18 | 2015-04-01 | 中山大学 | Method for preparing graphene/silver/titanium dioxide composite material |
CN104710733A (en) * | 2015-04-07 | 2015-06-17 | 嘉兴学院 | Heat-resistant antimicrobial polylactic acid material and preparation method thereof |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107237208A (en) * | 2017-07-04 | 2017-10-10 | 济南大学 | A kind of preparation method of three-dimensional grapheme zinc oxide compound nano paper |
CN108035188A (en) * | 2017-12-11 | 2018-05-15 | 安徽鑫光纸业股份有限公司 | A kind of preparation method of antistatic carbon fiber function and service paper |
CN109056344A (en) * | 2018-06-15 | 2018-12-21 | 浙江圣山科纺有限公司 | The production technology of photochromic umbrella cloth |
CN109403152A (en) * | 2018-11-22 | 2019-03-01 | 慈溪市圣保彩印包装有限公司 | A kind of corrugated board with effectiveness |
CN109403152B (en) * | 2018-11-22 | 2022-07-01 | 宁波依森纸制品有限公司 | Corrugated board with electromagnetic shielding effect |
CN109881297A (en) * | 2019-03-01 | 2019-06-14 | 苏州城邦达力材料科技有限公司 | A kind of variable composition of electric property, nanofiber and preparation method thereof |
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