CN106366761A

CN106366761A - Anti-bacterial luminous low-temperature ceramic ink for ink jet and preparation method thereof

Info

Publication number: CN106366761A
Application number: CN201610748996.3A
Authority: CN
Inventors: 邱杰华; 于庆九
Original assignee: FOSHAN CITY GAOMING DISTRICT HAIDI CERAMIC MATERIALS Co Ltd
Current assignee: FOSHAN CITY GAOMING DISTRICT HAIDI CERAMIC MATERIALS Co Ltd
Priority date: 2016-08-29
Filing date: 2016-08-29
Publication date: 2017-02-01

Abstract

The invention discloses an anti-bacterial luminous low-temperature ceramic ink for ink jet and a preparation method thereof. The preparation method comprises the following steps: A, mixing and grinding 25-38% of pigment, 0.5-5% of anti-bacterial compound, 1-5% of luminous compound, and 15-20% of drier of low-temperature frit; B, weighing 3-8% of a dispersant, 2-5% of a surface additive, 0.1-0.3% of a flatting agent, 0.3-0.8% of an antifoaming agent, 0.5-1% of a binding agent, and 0.08-0.1% of an anti-settling agent, adding a solvent into a homogenizer to disperse and grind, filtering, and obtaining an ink finished product. Compared with the current low-temperature ceramic ink, the manufactured low-temperature ceramic ink has the characteristics of scientific ingredients, and the low-temperature frit without the extremely toxic substances, such as lead and cadmium, is used so that the ceramic ink can guarantee the color development performance while the ceramic ink is fired in the low temperature. The luminous compound and anti-bacterial compound are rationally matched for the synergistic effect, so the ceramic ink also has the durable spectral anti-bacterial character, the pollution-preventing and self-cleaning functions and the luminous character, the application range of the low-temperature ceramic ink is further widened.

Description

A kind of ink-jet antibacterial noctilucence low-temp ceramics ink and preparation method thereof

Technical field

The present invention relates to ceramic technology field, more particularly to a kind of ink-jet with antibacterial noctilucence low-temp ceramics ink and Its preparation method.

Background technology

Antibacterial, mycete has very big harm as pathogen to the mankind and animals and plants, and the health of impact people even jeopardizes life Life, brings great economic loss.The research of therefore anti-biotic material and its product increasingly causes the concern of people, antibacterial product Demand will constitute huge market.

Long after glow luminous material is commonly called as luminescent powder, has unsaturated energy level in its electronic structure, under illumination condition, absorbing light Sub- energy, makes electronics that energy level transition to occur, and in dark environment, the energy of Electron absorption can discharge, and produces fluorescence Effect.At present, long after glow luminous material mostly is in the application of ceramic and adds in glaze, makes luminous glaze, luminous glaze is permissible As referential index effect, the such as indicating bit of staircase, indicating bit of room switch etc., and it is abundant that product can be allowed to present Effect.

Wall brick, no matter household interior decoration, or it is used for commercial production or public place, after meeting outward appearance practicality, How to make it possess more functions of concerning health of people guarantee aspect, be also that industry researcher is kept up with the trend of the times and given birth to Live wind vane and the thinking made.

In the building and ornament materials such as existing wall brick, due in low temperature frit contain substantial amounts of b, li, pb etc. fluxed from Thus obtaining the characteristic of watery fusion, this kind of raw material has been widely applied in the glaze of conventional ceramic to reduce glaze Melt temperature, raising glaze quality.But, traditional low temperature frit uses leaded, cadmium chemistry in a large number in order to reduce its temperature Material is although the effect of melt temperature can be reduced, but the chemical substance of lead, cadmium contains severe toxicity.Meanwhile, also rarely has report at present Functional type low-temp ceramics ink is prepared using low temperature frit in road, such as the Mobyneb low-temp ceramics ink such as antibacterial noctilucence.

Content of the invention

In order to solve above-mentioned the deficiencies in the prior art, the invention provides a kind of ink-jet antibacterial noctilucence low-temp ceramics ink And preparation method thereof.

The technical problem to be solved is achieved by the following technical programs:

A kind of ink-jet antibacterial noctilucence low-temp ceramics ink and preparation method thereof, this preparation method comprises the following steps:

Step a, by the siccative of 25 ~ 38% colorants, 0.5 ~ 5% antibiotic complex, 1 ~ 5% noctilucence complex, 15 ~ 20% low temperature frits mix Close, be subsequently poured into mix homogeneously in quick mixer；Using sand mill sand milling 10h so as to particle diameter distribution≤1 μm；

Step b, weigh 3 ~ 8% dispersants, 2 ~ 5% surface additives, 0.1 ~ 0.3% levelling agent, 0.3 ~ 0.8% defoamer, 0.5 ~ 1% Bonding agent, 0.08 ~ 0.1% anti-settling agent, solvent, are subsequently adding in the homogenizer of step a and carry out disperseing 30 ~ 60min；To divide The mixed liquor having dissipated loads in sand mill, and sand milling 8 ~ 12h obtains the ink semi-finished product of particle diameter distribution≤300nm；

Step c, the ink semi-finished product obtaining step b, in 80～100 DEG C of constant temperature a mixing bowl, then carry out evacuation, height Speed vibration, strainer filtering, obtain ink.

In the present invention, the preparation method of described low temperature frit is as follows: by 10 ~ 18% quartz, 5 ~ 12% Anhydrites, 15 ~ 25% boron Sand, 3 ~ 12% carbonate, 20 ~ 35% boric acid, 3 ~ 8% spodumenes, 1 ~ 4% fluoride salt, 0 ~ 5% Kaolin mixing sand milling are uniformly obtained mixed Close material；Compound is dispensed in loading fire resistant sagger, carries out 1250 ~ 1320 DEG C of high temperature meltings, obtain the slurry of molten state；To starch Material water quenching cooling, and it is broken into graininess, prepared low temperature frit.Wherein, described Anhydrite is by potassium feldspar and albite by weight 3 ~ 5:1 ~ 2 are obtained by mixing.Described carbonate is by least one group in potassium carbonate, sodium carbonate, brium carbonate, lithium carbonate and Calcium Carbonate Become it is preferable that described carbonate is mixed by weight 3:1:3:2:1 by potassium carbonate, sodium carbonate, brium carbonate, lithium carbonate and Calcium Carbonate Close and obtain.Described fluoride salt is obtained by mixing by weight 4:2:1 by sodium fluoride, calcium fluoride and lithium fluoride.

In the present invention, described noctilucence flour complexes preparation method is as follows: weighs porous graphene and is configured to Graphene water Solution, water bath sonicator 1 ~ 2h obtains all even stable dispersion liquid；Nanometer long lad phosphor is added in deionized water, Long-afterglow fluorescent is obtained after 500 ~ 1000kw ultrasonic vibration and the lower dispersion 300 ~ 600min of 500 ~ 1000r/min centrifugal speed stirring Powder dispersion liquid；100 ~ 200w ultrasonic lower toward graphene dispersing solution in be slowly added dropwise long lad phosphor dispersion liquid, porous graphite The weight of alkene and fluorescent material, than for 1:1 ~ 5, ultrasonic 60 ~ 90min, then stands, sucking filtration, drying, carries out 800 under vacuum environment ~ 900 DEG C of heat treatment 30 ~ 60min, prepared luminescent powder/porous graphene.Described long lad phosphor for mean diameter be less than The long afterglow sr of 10nm₄al₁₄o₂₅Nano-phosphor.

The preparation of porous graphene: 1g graphite powder adds in 25ml concentrated sulphuric acid, and ice salt bath is cooled to 0 DEG C, is slowly added to 3g Kmno4, then heat to 30 DEG C, 60rpm stirs 2h, add 200ml water, add 4ml hydrogen peroxide, 600rpm centrifugation removes After impurity, ultrasonic (400w, 50hz) processes 1h, and microwave (800w, 2450hz) processes 1h then, obtains graphene oxide, then Add the naoh of 4g, nitrogen protects 760 DEG C of heating 1h in tube furnace, obtains porous graphene.

In the present invention, described antibiotic complex can be obtained by the following method:

(1) weigh 0.3 ~ 1gc60 powder, measure the concentrated sulphuric acid that 80 ~ 100ml mass fraction is 98%, by c60 powder and concentrated sulphuric acid Beaker mixes, beaker is placed in ice-water bath, stirred with the speed of 500 ~ 600rpm simultaneously, obtain mixed liquor；Weigh 1 ~ 3g high Potassium manganate powder, slowly adds in above-mentioned mixed liquor；Remove ice-water bath, change water-bath into, keep 30 ~ 40 DEG C of bath temperature, instead Answer 3 ~ 5h；Rapidly join 100 ~ 150ml pure water, filter, then dialysed 3 ~ 5 days with the bag filter that molecular cut off is 1000, obtain Graphene quantum dot (gqds) suspension；100 ~ 150rpm speed stirs gqds suspension, laser irradiation 30 ~ 60min simultaneously, swashs Photoirradiation power is 0.5 ~ 2w；Standby；

(2) ultrasonic agitation 50 ~ 60mlgqds suspension, Deca concentration is 0.001 ~ 0.01mol/l silver nitrate aqueous solution；Dropwise plus Enter concentration be 0.1 ~ 0.5mol/l ammonium dihydrogen phosphate (ammonium dihydrogen phosphate and silver nitrate aqueous solution volume ratio are 2 ~ 3: 1), ultrasonic agitation 10 ~ 20min；Be added dropwise over 0.5 ~ 1mol/l sodium hydroxide solution, adjust ph value to 11, then standing, from The heart, deionized water and ethanol replace washing three times, vacuum drying, obtain gqds/ag₂o；

(3) take 1 ~ 3ggqds/ag₂O ultrasonic agitation is scattered in 80 ~ 120ml aqueous solution；Be added dropwise over concentration be 0.005 ~ 0.05mol/l cerous nitrate aqueous solution, being added dropwise over concentration after 30 ~ 60min is 0.005 ~ 0.05mol/l zinc nitrate aqueous solution, gqds/ag₂O aqueous solution, cerous nitrate aqueous solution and zinc nitrate aqueous solution volume ratio are 1:0.1 ~ 0.2:0.2 ~ 0.4；Continue ultrasonic Stirring, regulation mixed solution ph value to 7.0；Side ultrasonic agitation, side adds the hydrazine hydrate that 4 ~ 8ml mass fraction is 50%, 30 ~ Reduction reaction 0.5 ~ 1h at 40 DEG C；Afterwards, the hydrazine hydrate that 40 ~ 50ml mass fraction is 50%, reduction reaction at 85 DEG C are added After 30 ~ 48h；Filter, be washed with deionized for several times, vacuum drying, obtain gqds/ag₂o/ag-zn-ce；

(4) by 0.1 ~ 0.5ggqds/ag₂O/ag-zn-ce ultrasonic agitation is scattered in aqueous solution；Add volume ratio 3 ~ 5:1 afterwards Water and ammonia, be stirring evenly and then adding into tetraethyl orthosilicate (with gqds/ag₂The mass ratio of o/ag-zn-ce is 3:1 ~ 3), adjust Ph value is 9 ~ 10, and reaction temperature is 20 ~ 25 DEG C, reacts 30 ~ 60min；Carry out being centrifuged and being cleaned with acetone and deionized water successively Obtain precipitation；This is deposited at 80 ~ 90 DEG C 2 ~ 4h is dried, to obtain gqds/ag₂o/ag-zn-ce/sio₂；By gqds/ ag₂o/ag-zn-ce/sio₂It is placed under argon gas atmosphere and carries out 500 ~ 800 DEG C of heat treatment 1 ~ 2h, after being cooled to room temperature, be immersed in hydrogen In fluoric acid, ultrasonic 10 ~ 15min is carried out with ultrasonic power 100 ~ 150w, remove surface local silicon dioxide, be centrifuged and be dried, obtain Antibacterial powder；

(5), under nitrogen environment, by concentration be the protonic acid solution of 0.05 ~ 0.5mol/l and concentration is the ten of 0.05 ~ 0.5mol/l Dialkyl benzene sulfonic acids are mixed with volume ratio 2 ~ 4:2, are simultaneously introduced the antibacterial powder that step (4) is obtained, after magnetic agitation 60 ~ 120min Add aniline, antibacterial powder and aniline mass ratio are 2:12 ~ 18；After continuously stirred 60 ~ 90min, dropwise Deca Ammonium persulfate., aniline It is 1:1 with Ammonium persulfate. mol ratio；15 ~ 30h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, Mill to obtain nano polyaniline/antibacterial flour complexes；

(6) prepare TiO 2 sol with sol-gel process, add the nanometer polyphenyl accounting for colloidal sol 0.01 ~ 1.0wt% in colloidal sol Amine/antibacterial flour complexes, mix homogeneously；60 DEG C～120 DEG C drying of the rearmounted baking oven of still aging 3～5d；After milling, gained is multiple Calcine 1 ~ 2h at 400～550 DEG C of compound, remove polyaniline, obtain poriferous titanium dioxide/antibacterial flour complexes；

(7) 1 ~ 3g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 100 ~ 200ml ultra-pure water, water bath sonicator 2h obtains All even stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added concave shape Substrate in, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, due to carbon nanometer When pipe is near 8 DEG C, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, CNT has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes absorption to be received in carbon In multiple net holes of mitron reticular membrane；After drying, the carbon nanotube mesh of poriferous titanium dioxide/antibacterial flour complexes will be adsorbed with Film scrapes off this substrate, obtains antibiotic complex.

It is preferred that increasing by a step between step (4) and (5): take three-dimensional sponge shape Graphene ultrasonic agitation to be scattered in In aqueous solution, it is added dropwise over gqds/ag₂o/ag-zn-ce/sio₂In aqueous solution, three-dimensional sponge shape Graphene and gqds/ag₂o/ ag-zn-ce/sio₂Weight than for 1:1 ~ 5；Ultrasonic 60 ~ the 120min of 10 ~ 100w, standing, deionized water wash for several times, is dried Obtain gqds/ag₂o/ag-zn-ce/sio₂/ Graphene antibiosis powder.

In the present invention, described antibiotic complex can also be obtained by the following method:

(3) take 1 ~ 3ggqds/ag₂O ultrasonic agitation is scattered in aqueous solution；Being added dropwise over concentration is 0.05 ~ 0.5g/100mlzno Quantum dot aqueous solution, ultrasonic power mixing speed respectively halves；After 60 ~ 90min, standing, filter, be washed with deionized for several times, Vacuum drying, obtains gqds/ag₂O/zno antibacterial powder；

(4), under nitrogen environment, by concentration be the protonic acid solution of 0.05 ~ 0.5mol/l and concentration is the ten of 0.05 ~ 0.5mol/l Dialkyl benzene sulfonic acids are mixed with volume ratio 2 ~ 4:2, are simultaneously introduced the antibacterial powder that step (4) is obtained, after magnetic agitation 60 ~ 120min Add aniline, antibacterial powder and aniline mass ratio are 2:12 ~ 18；After continuously stirred 60 ~ 90min, dropwise Deca Ammonium persulfate., aniline It is 1:1 with Ammonium persulfate. mol ratio；15 ~ 30h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, Mill to obtain nano polyaniline/antibacterial flour complexes；

(5) prepare TiO 2 sol with sol-gel process, add the nanometer polyphenyl accounting for colloidal sol 0.01 ~ 1.0wt% in colloidal sol Amine/antibacterial flour complexes, mix homogeneously；60 DEG C～120 DEG C drying of the rearmounted baking oven of still aging 3～5d；After milling, gained is multiple Calcine 1 ~ 2h at 400～550 DEG C of compound, remove polyaniline, obtain poriferous titanium dioxide/antibacterial flour complexes；

(6) 1 ~ 3g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 100 ~ 200ml ultra-pure water, water bath sonicator 2h obtains All even stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added concave shape Substrate in, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, due to carbon nanometer When pipe is near 8 DEG C, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, CNT has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes absorption to be received in carbon In multiple net holes of mitron reticular membrane；After drying, the carbon nanotube mesh of poriferous titanium dioxide/antibacterial flour complexes will be adsorbed with Film scrapes off this substrate, obtains antibiotic complex.

It is preferred that increasing by a step between step (3) and (4): take three-dimensional sponge shape Graphene ultrasonic agitation to be scattered in In aqueous solution, it is added dropwise over gqds/ag₂In o/zno aqueous solution, three-dimensional sponge shape Graphene and gqds/ag₂The weight ratio of o/zno For 1:1 ~ 5；Ultrasonic 60 ~ the 120min of 10 ~ 100w, standing, deionized water wash for several times, dry gqds/ag₂O/zno/ Graphene Antibacterial powder.

In the present invention, described colorant is praseodymium yellow, cobalt blue, reddish brown, the orange, at least one of chrome tin pink, cobalt black.

In the present invention, described dispersant is water solublity and oil-soluble high score subclass, polyacrylic acid and copolymer, benzoic acid And its any one of derivant.The trade name that dispersant can include include byk161, byk163, byk164, byk168, Efka4310, efka 4400, efka4401, nuosperse fx9086, solsperse 24000, tego710, tego671, But not limited to this.

In the present invention, described surface additive is amino or amido and its salt.Surface additive is np-4, span-80, At least one in aeo-3 and sre-48000.

In the present invention, described solvent is in de- aromatic hydrocarbon solvent, environmental protection hydrocarbon solvent, alcohols, cycloalkane solvent At least one.Described bonding agent is usually used polymerizing resin, such as polyethylene, polypropylene, polrvinyl chloride and polystyrene tree One of fat, polymerizing resin plays and combines and scattered dual function.

In the present invention, levelling agent be polyether modified siloxane, the trade name that levelling agent can include include byk306, Byk333, levaslip 8629, but not limited to this.Defoamer is the polymer-type defoamer without organosilicon, and defoamer is permissible The trade name including includes byk051, byk052, but not limited to this.Anti-settling agent is polyamide wax, in oxidic polyethylene extremely Few one kind, the trade name that anti-settling agent can include includes disparlon ns-5501, disparlon 6650, but is not limited to This.

The invention has the following beneficial effects: this method loads and fixing antibacterial on the carbon nanotubes, not only prevent it Reunite, significantly improve the stability of the antibacterial such as metal nanoparticle so as to can more preferably be dispersed in ceramic ink, and have more Long-acting antibacterial activity and silver ion will not overflow oxidation stain；It is compounded with the anti-microbial property of multiple antibacterial simultaneously, compare There is more preferable antibacterial effect in single silver nano antibacterial agent, antibacterial is lasting；Compare with existing low-temp ceramics ink, the present invention The low-temp ceramics ink dispensing science manufacturing, preparation rationally, stable performance, and using not containing the low of the extremely toxic substances such as lead cadmium Warm frit, so that ceramic ink also ensures that its chromophoric characteristic in easy fired, obtains bright-coloured, sharp keen hair color effect；With When through rational arrange in pairs or groups noctilucence complex and antimicrobial composite material, both synergism, so that ceramic ink is also had lasting The antibacterial characteristics of spectrum, antifouling self-cleaning function and noctilucence characteristic, have widened the range of application of low-temp ceramics ink further.

Specific embodiment

To further illustrate technical scheme below by specific preferred implementation.For convenience of description, All using cobalt blue as ceramic pigment, but those skilled in the art are readily apparent that following examples, and spendable colorant does not limit to In this.

Embodiment 1

Step a, by the mixing of the siccative of 24% cobalt blue, 5% antibiotic complex, 5% noctilucence complex, 20% low temperature frit, be subsequently poured into Mix homogeneously in quick mixer；Using sand mill sand milling 10h so as to particle diameter distribution≤1 μm；

Step b, weigh 5% tego710,3.5% aeo-3,0.2% levaslip 8629,0.4% byk052,0.8% polyphenyl second Olefine resin, 0.1% disparlon ns-5501,36% environmental protection hydrocarbon solvent, are subsequently adding in the homogenizer of step a and carry out Dispersion 30 ~ 60min；Scattered mixed liquor is loaded in sand mill, sand milling 10h, obtain the ink half of particle diameter distribution≤300nm Finished product；

Step c, the ink semi-finished product obtaining step b, in 90 DEG C of constant temperature a mixing bowl, then carry out evacuation, shake at a high speed Dynamic, strainer filtering, obtains ink.

The preparation method of described low temperature frit is as follows: by 12% quartz, 12% Anhydrite, 25% Borax, 6% carbonate, 35% boron Acid, 5% spodumene, 4% fluoride salt, 1% Kaolin mixing sand milling are uniform, prepared compound；Compound is dispensed loading fire resistant sagger In, carry out 1250 ~ 1320 DEG C of high temperature meltings, obtain the slurry of molten state；High temperature melting technique is: room temperature to 1000 DEG C, Insulation 10min；It is warming up to 1300 DEG C, be incubated 30min；It is cooled to 1250 DEG C, be incubated 15min；It is warming up to 1320 DEG C, insulation 30min；By slurry water quenching cooling, and it is broken into graininess and can get low temperature frit；Wherein said Anhydrite is by potassium feldspar and sodium Anhydrite is obtained by mixing by weight 4:1；Described carbonate is by potassium carbonate, sodium carbonate, brium carbonate, lithium carbonate and Calcium Carbonate by weight It is obtained by mixing than 3:1:3:2:1；Described fluoride salt is obtained by mixing by weight 4:2:1 by sodium fluoride, calcium fluoride and lithium fluoride.

Wherein, described noctilucence flour complexes preparation method is as follows: weighs porous graphene and is configured to graphene aqueous solution, water Bathe ultrasonic 2h and obtain all even stable dispersion liquid；By nanometer long lad phosphor (the long afterglow sr less than 10nm₄al₁₄o₂₅Receive Rice fluorescent material) add in deionized water, after dispersion 300min under 1000kw ultrasonic vibration and the stirring of 1000r/min centrifugal speed Prepared long lad phosphor dispersion liquid；120w ultrasonic lower toward graphene dispersing solution in be slowly added dropwise long lad phosphor dispersion Liquid, the weight of porous graphene and fluorescent material, than for 1:1, ultrasonic 90min, then stands, sucking filtration, drying, under vacuum environment Carry out 850 DEG C of heat treatment 30min, prepared luminescent powder/porous graphene.

Wherein, described antibiotic complex is obtained by the following method:

(1) weigh 0.6gc60 powder, measure the concentrated sulphuric acid that 100ml mass fraction is 98%, c60 powder and concentrated sulphuric acid are being burnt Mix in cup, beaker is placed in ice-water bath, stirred with the speed of 600rpm simultaneously, obtain mixed liquor；Weigh 1g potassium permanganate powder, Slowly add in above-mentioned mixed liquor；Remove ice-water bath, change water-bath into, keep 30 ~ 40 DEG C of bath temperature, react 4h；Quickly add Enter 120ml pure water, filter, then dialysed 4 days with the bag filter that molecular cut off is 1000, obtain graphene quantum dot (gqds) and hang Supernatant liquid；100rpm speed stirs gqds suspension, laser irradiation 40min simultaneously, and laser irradiation power is 1w；Standby；

(2) ultrasonic agitation 60mlgqds suspension, Deca concentration is 0.001mol/l silver nitrate aqueous solution；Being added dropwise over concentration is 0.1mol/l ammonium dihydrogen phosphate (ammonium dihydrogen phosphate and silver nitrate aqueous solution volume ratio are 2:1), ultrasonic agitation 20min；It is added dropwise over 1mol/l sodium hydroxide solution, regulation ph value to 11, then standing, centrifugation, deionized water and ethanol Alternately washing three times, vacuum drying, obtain gqds/ag₂o；

(3) take 1ggqds/ag₂O ultrasonic agitation is scattered in 100ml aqueous solution；Being added dropwise over concentration is 0.05mol/l cerous nitrate Aqueous solution, being added dropwise over concentration after 30min is 0.005mol/l zinc nitrate aqueous solution, gqds/ag₂O aqueous solution, cerous nitrate are water-soluble Liquid and zinc nitrate aqueous solution volume ratio are 1:0.1:0.4；Continue ultrasonic agitation, regulation mixed solution ph value to 7.0；Side is ultrasonic to be stirred Mix, side adds the hydrazine hydrate that 6ml mass fraction is 50%, reduction reaction 0.5h at 30 DEG C；Afterwards, add 45ml mass to divide The hydrazine hydrate for 50% for the number, after reduction reaction 36h at 85 DEG C；Filter, be washed with deionized for several times, vacuum drying, obtain gqds/ag₂o/ag-zn-ce；

(4) by 0.5ggqds/ag₂O/ag-zn-ce ultrasonic agitation is scattered in aqueous solution；Afterwards add volume ratio 4:1 water and Ammonia, is stirring evenly and then adding into tetraethyl orthosilicate (with gqds/ag₂The mass ratio of o/ag-zn-ce is 3:2), adjust ph value for 9 ~ 10, reaction temperature is 20 ~ 25 DEG C, reacts 30min；Carry out centrifugation and clean acquisition precipitation successively with acetone and deionized water；Will This is deposited in and 3h is dried at 90 DEG C, to obtain gqds/ag₂o/ag-zn-ce/sio₂；By gqds/ag₂o/ag-zn-ce/sio₂Put Carry out 600 DEG C of heat treatment 1h under argon gas atmosphere, after being cooled to room temperature, be immersed in Fluohydric acid. and surpassed with ultrasonic power 100w Sound 10min, removes surface local silicon dioxide, is centrifuged and is dried, obtains antibacterial powder；

(5) under nitrogen environment, by the detergent alkylate sulphur for 0.1mol/l for the protonic acid solution and concentration for 0.2mol/l for the concentration Acid, with the mixing of volume ratio 3:2, is simultaneously introduced the antibacterial powder that step (4) is obtained, and adds aniline, antibacterial powder after magnetic agitation 100min After being the continuously stirred 90min of 2:18 with aniline mass ratio, dropwise Deca Ammonium persulfate., aniline and Ammonium persulfate. mol ratio are 1:1； 20h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, mill nano polyaniline/antibacterial powder is multiple Compound；

(6) prepare TiO 2 sol with sol-gel process, add in colloidal sol and account for the nano polyaniline of colloidal sol 1.0wt%/anti- Mycopowder complex, mix homogeneously；The 90 DEG C of drying of the rearmounted baking oven of still aging 4d；To calcine at 500 DEG C of gained complex after milling 1h, removes polyaniline, obtains poriferous titanium dioxide/antibacterial flour complexes；

(7) 1g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 150ml ultra-pure water, water bath sonicator 2h obtains all even Stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added the substrate of concave shape In, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, because CNT is at 8 DEG C When nearby, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, carbon nanometer Pipe has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes and adsorbs in carbon nanotube mesh film Multiple net holes in；After drying, the carbon nanotube mesh film being adsorbed with poriferous titanium dioxide/antibacterial flour complexes is scraped off this base Plate, obtains antibiotic complex.

Embodiment 2

Step a, by the mixing of the siccative of 32% cobalt blue, 2% antibiotic complex, 3% noctilucence complex, 18% low temperature frit, be subsequently poured into Mix homogeneously in quick mixer；Using sand mill sand milling 10h so as to particle diameter distribution≤1 μm；

Step b, weigh 5% tego710,3.5% aeo-3,0.2% levaslip 8629,0.4% byk052,0.8% polyphenyl second Olefine resin, 0.1% disparlon ns-5501,35% environmental protection hydrocarbon solvent, are subsequently adding in the homogenizer of step a and carry out Dispersion 30 ~ 60min；Scattered mixed liquor is loaded in sand mill, sand milling 10h, obtain the ink half of particle diameter distribution≤300nm Finished product；

The preparation method of described low temperature frit is as follows: by 15% quartz, 10% Anhydrite, 24% Borax, 10% carbonate, 28% boron Acid, 7% spodumene, 3% fluoride salt, 3% Kaolin mixing sand milling are uniform, prepared compound；Compound is dispensed loading fire resistant sagger In, carry out 1250 ~ 1320 DEG C of high temperature meltings, obtain the slurry of molten state；High temperature melting technique is: room temperature to 1000 DEG C, Insulation 10min；It is warming up to 1300 DEG C, be incubated 30min；It is cooled to 1250 DEG C, be incubated 15min；It is warming up to 1320 DEG C, insulation 30min；By slurry water quenching cooling, and it is broken into graininess and can get low temperature frit；Wherein said Anhydrite is by potassium feldspar and sodium Anhydrite is obtained by mixing by weight 4:1；Described carbonate is by potassium carbonate, sodium carbonate, brium carbonate, lithium carbonate and Calcium Carbonate by weight It is obtained by mixing than 3:1:3:2:1；Described fluoride salt is obtained by mixing by weight 4:2:1 by sodium fluoride, calcium fluoride and lithium fluoride.

Wherein, the preparation method of described noctilucence flour complexes is as follows: weigh porous graphene and be configured to graphene aqueous solution, Water bath sonicator 2h obtains all even stable dispersion liquid；By nanometer long lad phosphor (the long afterglow sr less than 10nm₄al₁₄o₂₅ Nano-phosphor) add in deionized water, disperse 300min under 1000kw ultrasonic vibration and the stirring of 1000r/min centrifugal speed Long lad phosphor dispersion liquid is obtained afterwards；120w ultrasonic lower toward graphene dispersing solution in be slowly added dropwise long lad phosphor dispersion Liquid, the weight of porous graphene and fluorescent material, than for 1:3, ultrasonic 90min, then stands, sucking filtration, drying, under vacuum environment Carry out 850 DEG C of heat treatment 30min, prepared luminescent powder/porous graphene.

Wherein, described antibiotic complex is obtained by the following method:

(2) ultrasonic agitation 60mlgqds suspension, Deca concentration is 0.005mol/l silver nitrate aqueous solution；Being added dropwise over concentration is 0.2mol/l ammonium dihydrogen phosphate (ammonium dihydrogen phosphate and silver nitrate aqueous solution volume ratio are 2:1), ultrasonic agitation 20min；It is added dropwise over 1mol/l sodium hydroxide solution, regulation ph value to 11, then standing, centrifugation, deionized water and ethanol Alternately washing three times, vacuum drying, obtain gqds/ag₂o；

(3) take 2ggqds/ag₂O ultrasonic agitation is scattered in 100ml aqueous solution；Being added dropwise over concentration is 0.03mol/l cerous nitrate Aqueous solution, being added dropwise over concentration after 30min is 0.03mol/l zinc nitrate aqueous solution, gqds/ag₂O aqueous solution, cerous nitrate are water-soluble Liquid and zinc nitrate aqueous solution volume ratio are 1:0.2:0.3；Continue ultrasonic agitation, regulation mixed solution ph value to 7.0；Side is ultrasonic to be stirred Mix, side adds the hydrazine hydrate that 6ml mass fraction is 50%, reduction reaction 0.5h at 30 DEG C；Afterwards, add 45ml mass to divide The hydrazine hydrate for 50% for the number, after reduction reaction 36h at 85 DEG C；Filter, be washed with deionized for several times, vacuum drying, obtain gqds/ag₂o/ag-zn-ce；

(4) by 0.3ggqds/ag₂O/ag-zn-ce ultrasonic agitation is scattered in aqueous solution；Afterwards add volume ratio 4:1 water and Ammonia, is stirring evenly and then adding into tetraethyl orthosilicate (with gqds/ag₂The mass ratio of o/ag-zn-ce is 3:2), adjust ph value for 9 ~ 10, reaction temperature is 20 ~ 25 DEG C, reacts 45min；Carry out centrifugation and clean acquisition precipitation successively with acetone and deionized water；Will This is deposited in and 3h is dried at 90 DEG C, to obtain gqds/ag₂o/ag-zn-ce/sio₂；By gqds/ag₂o/ag-zn-ce/sio₂Put Carry out 600 DEG C of heat treatment 1h under argon gas atmosphere, after being cooled to room temperature, be immersed in Fluohydric acid. and surpassed with ultrasonic power 100w Sound 12min, removes surface local silicon dioxide, is centrifuged and is dried, obtains antibacterial powder；

(5) under nitrogen environment, by the detergent alkylate sulphur for 0.1mol/l for the protonic acid solution and concentration for 0.2mol/l for the concentration Acid, with the mixing of volume ratio 3:2, is simultaneously introduced the antibacterial powder that step (4) is obtained, and adds aniline, antibacterial powder after magnetic agitation 100min After being the continuously stirred 90min of 2:15 with aniline mass ratio, dropwise Deca Ammonium persulfate., aniline and Ammonium persulfate. mol ratio are 1:1； 20h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, mill nano polyaniline/antibacterial powder is multiple Compound；

(6) prepare TiO 2 sol with sol-gel process, add in colloidal sol and account for the nano polyaniline of colloidal sol 0.5wt%/anti- Mycopowder complex, mix homogeneously；The 90 DEG C of drying of the rearmounted baking oven of still aging 4d；To calcine at 500 DEG C of gained complex after milling 1h, removes polyaniline, obtains poriferous titanium dioxide/antibacterial flour complexes；

(7) 2g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 150ml ultra-pure water, water bath sonicator 2h obtains all even Stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added the substrate of concave shape In, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, because CNT is at 8 DEG C When nearby, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, carbon nanometer Pipe has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes and adsorbs in carbon nanotube mesh film Multiple net holes in；After drying, the carbon nanotube mesh film being adsorbed with poriferous titanium dioxide/antibacterial flour complexes is scraped off this base Plate, obtains antibiotic complex.

Embodiment 3

Step a, by the mixing of the siccative of 38% cobalt blue, 0.5% antibiotic complex, 1% noctilucence complex, 15% low temperature frit, then fall Enter mix homogeneously in quick mixer；Using sand mill sand milling 10h so as to particle diameter distribution≤1 μm；

The preparation method of described low temperature frit is as follows: by 18% quartz, 7% Anhydrite, 20% Borax, 12% carbonate, 28% boron Acid, 8% spodumene, 2% fluoride salt, 5% Kaolin mixing sand milling are uniform, prepared compound；Compound is dispensed loading fire resistant sagger In, carry out 1250 ~ 1320 DEG C of high temperature meltings, obtain the slurry of molten state；High temperature melting technique is: room temperature to 1000 DEG C, Insulation 10min；It is warming up to 1300 DEG C, be incubated 30min；It is cooled to 1250 DEG C, be incubated 15min；It is warming up to 1320 DEG C, insulation 30min；By slurry water quenching cooling, and it is broken into graininess and can get low temperature frit；Wherein said Anhydrite is by potassium feldspar and sodium Anhydrite is obtained by mixing by weight 4:1；Described carbonate is by potassium carbonate, sodium carbonate, brium carbonate, lithium carbonate and Calcium Carbonate by weight It is obtained by mixing than 3:1:3:2:1；Described fluoride salt is obtained by mixing by weight 4:2:1 by sodium fluoride, calcium fluoride and lithium fluoride.

Wherein, the preparation method of described noctilucence flour complexes is as follows: weigh porous graphene and be configured to graphene aqueous solution, Water bath sonicator 2h obtains all even stable dispersion liquid；By nanometer long lad phosphor (the long afterglow sr less than 10nm₄al₁₄o₂₅ Nano-phosphor) add in deionized water, disperse 300min under 1000kw ultrasonic vibration and the stirring of 1000r/min centrifugal speed Long lad phosphor dispersion liquid is obtained afterwards；120w ultrasonic lower toward graphene dispersing solution in be slowly added dropwise long lad phosphor dispersion Liquid, the weight of porous graphene and fluorescent material, than for 1:5, ultrasonic 90min, then stands, sucking filtration, drying, under vacuum environment Carry out 850 DEG C of heat treatment 30min, prepared luminescent powder/porous graphene.

Wherein, antibiotic complex is obtained by the following method:

(2) ultrasonic agitation 60mlgqds suspension, Deca concentration is 0.01mol/l silver nitrate aqueous solution；Being added dropwise over concentration is 0.5mol/l ammonium dihydrogen phosphate (ammonium dihydrogen phosphate and silver nitrate aqueous solution volume ratio are 2:1), ultrasonic agitation 20min；It is added dropwise over 1mol/l sodium hydroxide solution, regulation ph value to 11, then standing, centrifugation, deionized water and ethanol Alternately washing three times, vacuum drying, obtain gqds/ag₂o；

(3) take 3ggqds/ag₂O ultrasonic agitation is scattered in 100ml aqueous solution；Being added dropwise over concentration is 0.005mol/l nitric acid Cerium aqueous solution, being added dropwise over concentration after 30min is 0.05mol/l zinc nitrate aqueous solution, gqds/ag₂O aqueous solution, cerous nitrate water Solution and zinc nitrate aqueous solution volume ratio are 1:0.2:0.4；Continue ultrasonic agitation, regulation mixed solution ph value to 7.0；Side is ultrasonic Stirring, side adds the hydrazine hydrate that 6ml mass fraction is 50%, reduction reaction 0.5h at 30 DEG C；Afterwards, add 45ml mass Fraction is 50% hydrazine hydrate, after reduction reaction 36h at 85 DEG C；Filter, be washed with deionized for several times, vacuum drying, obtain gqds/ag₂o/ag-zn-ce；

(4) by 0.1ggqds/ag₂O/ag-zn-ce ultrasonic agitation is scattered in aqueous solution；Afterwards add volume ratio 4:1 water and Ammonia, is stirring evenly and then adding into tetraethyl orthosilicate (with gqds/ag₂The mass ratio of o/ag-zn-ce is 3:2), adjust ph value for 9 ~ 10, reaction temperature is 20 ~ 25 DEG C, reacts 60min；Carry out centrifugation and clean acquisition precipitation successively with acetone and deionized water；Will This is deposited in and 3h is dried at 90 DEG C, to obtain gqds/ag₂o/ag-zn-ce/sio₂；By gqds/ag₂o/ag-zn-ce/sio₂Put Carry out 600 DEG C of heat treatment 1h under argon gas atmosphere, after being cooled to room temperature, be immersed in Fluohydric acid. and surpassed with ultrasonic power 100w Sound 15min, removes surface local silicon dioxide, is centrifuged and is dried, obtains antibacterial powder；

(5) under nitrogen environment, by the detergent alkylate sulphur for 0.1mol/l for the protonic acid solution and concentration for 0.2mol/l for the concentration Acid, with the mixing of volume ratio 3:2, is simultaneously introduced the antibacterial powder that step (4) is obtained, and adds aniline, antibacterial powder after magnetic agitation 100min After being the continuously stirred 90min of 2:12 with aniline mass ratio, dropwise Deca Ammonium persulfate., aniline and Ammonium persulfate. mol ratio are 1:1； 20h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, mill nano polyaniline/antibacterial powder is multiple Compound；

(6) prepare TiO 2 sol with sol-gel process, add in colloidal sol account for the nano polyaniline of colloidal sol 0.01wt%/ Antibacterial flour complexes, mix homogeneously；The 90 DEG C of drying of the rearmounted baking oven of still aging 4d；Forge at 500 DEG C of gained complex after milling Burn 1h, remove polyaniline, obtain poriferous titanium dioxide/antibacterial flour complexes；

(7) 3g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 150ml ultra-pure water, water bath sonicator 2h obtains all even Stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added the substrate of concave shape In, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, because CNT is at 8 DEG C When nearby, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, carbon nanometer Pipe has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes and adsorbs in carbon nanotube mesh film Multiple net holes in；After drying, the carbon nanotube mesh film being adsorbed with poriferous titanium dioxide/antibacterial flour complexes is scraped off this base Plate, obtains antibiotic complex.

Embodiment 4

Based on the preparation method of embodiment 2, difference is: increases following steps between step (4) and (5): take three-dimensional sea Continuous shape Graphene ultrasonic agitation is scattered in aqueous solution, is added dropwise over gqds/ag₂o/ag-zn-ce/sio₂In aqueous solution, three-dimensional Spongy graphene and gqds/ag₂o/ag-zn-ce/sio₂Weight than for 1:3；The ultrasonic 90min of 50w, standing, deionized water Washing for several times, dry gqds/ag₂o/ag-zn-ce/sio₂/ Graphene antibiosis powder.

Three-dimensional sponge shape graphene preparation method is as follows: by 3g graphite powder, 1g nano3 in ice-water bath with 250ml 98% concentrated sulphuric acid mix homogeneously, is slowly added to 6g kmno4.Then heat at 35 DEG C, after stirring 40min, add 95ml to go Ionized water, is warming up to 98 DEG C of reaction 20min；Add 270ml water dilution, and with 5ml 30% h2o2 with unnecessary kmno4, The color of mixed solution is brown color, filtered while hot, and deionized water cyclic washing obtains go to neutrality, ultrasonic disperse；Take 200ml mass fraction is that the graphene oxide solution of 5mg/ml pours diameter 25cm into, in the discoid reaction utensil of high 2cm, adds Ascorbic acid (vc) 0.5g stirring makes it be sufficiently mixed；Then confined reaction ware is placed in 80 DEG C of hydro-thermal reactions 15h, in reaction utensil Graphene oxide Spontaneous Contraction be cross-linked into three-dimensional sponge structure, lyophilization, obtain flexibility three-dimensional sponge shape Graphene.

Embodiment 5

Based on the preparation method of embodiment 1, difference is: described antibiotic complex is obtained by the following method:

(3) take 1ggqds/ag₂O ultrasonic agitation is scattered in aqueous solution；Being added dropwise over concentration is 0.5g/100mlzno quantum dot Aqueous solution, ultrasonic power mixing speed respectively halves；After 60min, standing, filter, be washed with deionized for several times, vacuum drying, Obtain gqds/ag₂O/zno antibacterial powder；

(4) under nitrogen environment, by the detergent alkylate sulphur for 0.1mol/l for the protonic acid solution and concentration for 0.2mol/l for the concentration Acid, with the mixing of volume ratio 3:2, is simultaneously introduced the antibacterial powder that step (4) is obtained, and adds aniline, antibacterial powder after magnetic agitation 100min After being the continuously stirred 90min of 2:18 with aniline mass ratio, dropwise Deca Ammonium persulfate., aniline and Ammonium persulfate. mol ratio are 1:1； 20h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, mill nano polyaniline/antibacterial powder is multiple Compound；

(5) prepare TiO 2 sol with sol-gel process, add in colloidal sol and account for the nano polyaniline of colloidal sol 1.0wt%/anti- Mycopowder complex, mix homogeneously；The 90 DEG C of drying of the rearmounted baking oven of still aging 4d；To calcine at 500 DEG C of gained complex after milling 1h, removes polyaniline, obtains poriferous titanium dioxide/antibacterial flour complexes；

(6) 1g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 150ml ultra-pure water, water bath sonicator 2h obtains all even Stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added the substrate of concave shape In, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, because CNT is at 8 DEG C When nearby, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, carbon nanometer Pipe has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes and adsorbs in carbon nanotube mesh film Multiple net holes in；After drying, the carbon nanotube mesh film being adsorbed with poriferous titanium dioxide/antibacterial flour complexes is scraped off this base Plate, obtains antibiotic complex.

Embodiment 6

Based on the preparation method of embodiment 2, difference is: described antibiotic complex is obtained by the following method:

(3) take 2ggqds/ag₂O ultrasonic agitation is scattered in aqueous solution；Being added dropwise over concentration is 0.2g/100mlzno quantum dot Aqueous solution, ultrasonic power mixing speed respectively halves；After 80min, standing, filter, be washed with deionized for several times, vacuum drying, Obtain gqds/ag₂O/zno antibacterial powder；

(4) under nitrogen environment, by the detergent alkylate sulphur for 0.1mol/l for the protonic acid solution and concentration for 0.2mol/l for the concentration Acid, with the mixing of volume ratio 3:2, is simultaneously introduced the antibacterial powder that step (4) is obtained, and adds aniline, antibacterial powder after magnetic agitation 100min After being the continuously stirred 90min of 2:15 with aniline mass ratio, dropwise Deca Ammonium persulfate., aniline and Ammonium persulfate. mol ratio are 1:1； 20h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, mill nano polyaniline/antibacterial powder is multiple Compound；

(5) prepare TiO 2 sol with sol-gel process, add in colloidal sol and account for the nano polyaniline of colloidal sol 0.5wt%/anti- Mycopowder complex, mix homogeneously；The 90 DEG C of drying of the rearmounted baking oven of still aging 4d；To calcine at 500 DEG C of gained complex after milling 1h, removes polyaniline, obtains poriferous titanium dioxide/antibacterial flour complexes；

(6) 2g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 150ml ultra-pure water, water bath sonicator 2h obtains all even Stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added the substrate of concave shape In, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, because CNT is at 8 DEG C When nearby, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, carbon nanometer Pipe has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes and adsorbs in carbon nanotube mesh film Multiple net holes in；After drying, the carbon nanotube mesh film being adsorbed with poriferous titanium dioxide/antibacterial flour complexes is scraped off this base Plate, obtains antibiotic complex.

Embodiment 7

Based on the preparation method of embodiment 3, difference is: described antibiotic complex is obtained by the following method:

(3) take 3ggqds/ag₂O ultrasonic agitation is scattered in aqueous solution；Being added dropwise over concentration is 0.05g/100mlzno quantum dot Aqueous solution, ultrasonic power mixing speed respectively halves；After 90min, standing, filter, be washed with deionized for several times, vacuum drying, Obtain gqds/ag₂O/zno antibacterial powder；

(4) under nitrogen environment, by the detergent alkylate sulphur for 0.1mol/l for the protonic acid solution and concentration for 0.2mol/l for the concentration Acid, with the mixing of volume ratio 3:2, is simultaneously introduced the antibacterial powder that step (4) is obtained, and adds aniline, antibacterial powder after magnetic agitation 100min After being the continuously stirred 90min of 2:12 with aniline mass ratio, dropwise Deca Ammonium persulfate., aniline and Ammonium persulfate. mol ratio are 1:1； 20h is reacted at 20 DEG C～30 DEG C；Acetone, deionized water wash are vacuum dried for several times afterwards, mill nano polyaniline/antibacterial powder is multiple Compound；

(5) prepare TiO 2 sol with sol-gel process, add in colloidal sol account for the nano polyaniline of colloidal sol 0.01wt%/ Antibacterial flour complexes, mix homogeneously；The 90 DEG C of drying of the rearmounted baking oven of still aging 4d；Forge at 500 DEG C of gained complex after milling Burn 1h, remove polyaniline, obtain poriferous titanium dioxide/antibacterial flour complexes；

(6) 3g poriferous titanium dioxide/antibacterial flour complexes are taken to be scattered in 150ml ultra-pure water, water bath sonicator 2h obtains all even Stable dispersion liquid；When the substrate with carbon nanotube mesh film is placed in about 8 DEG C, dispersion liquid is added the substrate of concave shape In, meanwhile, roll around roller, so that this homogeneous dispersion is scattered in this carbon nanotube mesh film, because CNT is at 8 DEG C When nearby, there is hydrophilic, this dispersion liquid is attracted to multiple net holes of carbon nanotube mesh film；It is warming up to about 25 DEG C, carbon nanometer Pipe has hydrophobicity drive hydrone away and leaves behind poriferous titanium dioxide/antibacterial flour complexes and adsorbs in carbon nanotube mesh film Multiple net holes in；After drying, the carbon nanotube mesh film being adsorbed with poriferous titanium dioxide/antibacterial flour complexes is scraped off this base Plate, obtains antibiotic complex.

Embodiment 8

Based on the preparation method of embodiment 6, difference is: increases such as next step between step (3) and (4): take three-dimensional Spongy graphene ultrasonic agitation is scattered in aqueous solution, is added dropwise over gqds/ag₂In o/zno aqueous solution, three-dimensional sponge shape stone Black alkene and gqds/ag₂The weight of o/zno is than for 1:3；The ultrasonic 90min of 50w, standing, deionized water wash is for several times, dry gqds/ag₂O/zno/ Graphene antibiosis powder.

Comparative example 1

Based on the preparation method of embodiment 1, difference is: described antibiotic complex is the titanium dioxide carrying metal antibacterial agent Titanium；It is not added with noctilucence complex.

Comparative example 2

Based on the preparation method of embodiment 5, difference is: described antibiotic complex is the mixing of zinc oxide and titanium dioxide Thing；Described noctilucence flour complexes are long afterglow sr that mean diameter is less than 10nm₄al₁₄o₂₅Nano-phosphor.

The low temperature frit that each embodiment and comparative example are adopted, wherein not leaded, cadmium toxic element, the experiment proved that low It is melting at 800 DEG C, can be used for preparing the flux material of various low-temperature environment-friendly potteries.

Embodiment 1 ~ 8 and comparative example 1,2 are carried out performance test, test result is as follows:

Sterilization rate: qualitatively check the antibacterial effect of ink using inhibition zone method, the strain of employing be staphylococcus aureuses or Escherichia coli.

Wear testing: the abrasive material being 3～4 from Mohs' hardness, rubs 1000 times in the printed layer being formed by this ink To imitate the effect after paving uses 2 years.

Heat stability testing: place 10h under the conditions of ceramic ink is placed in 60 DEG C.

Antifouling test: be pollutant from chrome green.

Sterilizing Evaluation for Uniformity: same emitting ink, in whole piece pottery test piece and after easy fired, is chosen 100 Region carries out sterilizing test, carries out Uniformity Analysis to the data recording, by the uniformity=100* (1- standard deviation/average Value).When the uniformity is more than 97%, then be labeled as ▲；When the uniformity is more than 90% and is less than 97%, then it is labeled as ☆；When the uniformity is low In 90%, then it is labeled as.

Embodiment described above only have expressed embodiments of the present invention, and its description is more concrete and detailed, but can not Therefore it is interpreted as the restriction to the scope of the claims of the present invention, as long as the skill being obtained in the form of equivalent or equivalent transformation Art scheme, all should fall within the scope and spirit of the invention.

Claims

1. a kind of ink-jet preparation method of antibacterial noctilucence low-temp ceramics ink, it comprises the following steps:

Step a, by the siccative of 25 ~ 38% colorants, 0.5 ~ 5% antibiotic complex, 1 ~ 5% noctilucence complex, 15 ~ 20% low temperature frits mix Close, be subsequently poured into mix homogeneously in quick mixer；10h is ground so as to particle diameter distribution≤1 μm using grinder；

Step b, weigh 3 ~ 8% dispersants, 2 ~ 5% surface additives, 0.1 ~ 0.3% levelling agent, 0.3 ~ 0.8% defoamer, 0.5 ~ 1% Bonding agent, 0.08 ~ 0.1% anti-settling agent, solvent, are subsequently adding in the homogenizer of step a and carry out disperseing 30 ~ 60min；To divide The mixed liquor having dissipated loads in grinder, grinds 8 ~ 12h, obtains the ink semi-finished product of particle diameter distribution≤300nm；

2. ink-jet according to claim 1 with the preparation method of antibacterial noctilucence low-temp ceramics ink it is characterised in that described The preparation method of antibiotic complex is as follows:

(1) weigh 0.3 ~ 1gc60 powder, measure the concentrated sulphuric acid that 80 ~ 100ml mass fraction is 98%, by c60 powder and concentrated sulphuric acid Beaker mixes, beaker is placed in ice-water bath, stirred with the speed of 500 ~ 600rpm simultaneously, obtain mixed liquor；Weigh 1 ~ 3g high Potassium manganate powder, slowly adds in above-mentioned mixed liquor；Remove ice-water bath, change water-bath into, keep 30 ~ 40 DEG C of bath temperature, instead Answer 3 ~ 5h；Rapidly join 100 ~ 150ml pure water, filter, then dialysed 3 ~ 5 days with the bag filter that molecular cut off is 1000, obtain Gqds suspension；100 ~ 150rpm speed stirs gqds suspension, laser irradiation 30 ~ 60min simultaneously, and laser irradiation power is 0.5~2w；Standby；

(2) ultrasonic agitation 50 ~ 60mlgqds suspension, Deca concentration is 0.001 ~ 0.01mol/l silver nitrate aqueous solution；Dropwise plus Entering concentration is 0.1 ~ 0.5mol/l ammonium dihydrogen phosphate, ultrasonic agitation 10 ~ 20min；It is added dropwise over 0.5 ~ 1mol/l hydroxide Sodium solution, adjusts ph value to 11, then stands, is centrifuged, deionized water and ethanol replace washing three times, vacuum drying, obtain gqds/ag₂o；

(4) by 0.1 ~ 0.5ggqds/ag₂O/ag-zn-ce ultrasonic agitation is scattered in aqueous solution；Add volume ratio 3 ~ 5:1 afterwards Water and ammonia, be stirring evenly and then adding into, adjust ph value be 9 ~ 10, reaction temperature be 20 ~ 25 DEG C, react 30 ~ 60min；Carry out Centrifugation simultaneously cleans acquisition precipitation successively with acetone and deionized water；This is deposited at 80 ~ 90 DEG C 2 ~ 4h is dried, to obtain gqds/ag₂o/ag-zn-ce/sio₂；By gqds/ag₂o/ag-zn-ce/sio₂It is placed under argon gas atmosphere and carry out 500 ~ 800 DEG C of heat Process 1 ~ 2h, after being cooled to room temperature, be immersed in Fluohydric acid. and ultrasonic 10 ~ 15min is carried out with ultrasonic power 100 ~ 150w, remove table Face local silicon dioxide, is centrifuged and is dried, obtain antibacterial powder；

3. ink-jet according to claim 2 with the preparation method of antibacterial noctilucence low-temp ceramics ink it is characterised in that step (4) increase by a step and (5) between: take three-dimensional sponge shape Graphene ultrasonic agitation to be scattered in aqueous solution, be added dropwise over gqds/ ag₂o/ag-zn-ce/sio₂In aqueous solution, three-dimensional sponge shape Graphene and gqds/ag₂o/ag-zn-ce/sio₂Weight ratio be 1:1~5；Ultrasonic 60 ~ the 120min of 10 ~ 100w, standing, deionized water wash for several times, dry gqds/ag₂o/ag-zn-ce/ sio₂/ Graphene antibiosis powder.

4. a kind of ink-jet preparation method of antibacterial noctilucence low-temp ceramics ink, it comprises the following steps:

Step c, the ink semi-finished product obtaining step b, in 80～100 DEG C of constant temperature a mixing bowl, then carry out evacuation, height Speed vibration, strainer filtering, obtain ink；

Wherein, the preparation method of described antibiotic complex is as follows:

5. ink-jet according to claim 4 with the preparation method of antibacterial noctilucence low-temp ceramics ink it is characterised in that step (3) increase by a step and (4) between: take three-dimensional sponge shape Graphene ultrasonic agitation to be scattered in aqueous solution, be added dropwise over gqds/ ag₂In o/zno aqueous solution, three-dimensional sponge shape Graphene and gqds/ag₂The weight of o/zno is than for 1:1 ~ 5；10 ~ 100w is ultrasonic 60 ~ 120min, standing, deionized water wash for several times, dry gqds/ag₂O/zno/ Graphene antibiosis powder.

6. the ink-jet according to claim 2 or 4 with the preparation method of antibacterial noctilucence low-temp ceramics ink it is characterised in that The preparation method of described low temperature frit is as follows: by 10 ~ 18% quartz, 5 ~ 12% Anhydrites, 15 ~ 25% Boraxs, 3 ~ 12% carbonate, 20 ~ 35% boric acid, 3 ~ 8% spodumenes, 1 ~ 4% fluoride salt, 0 ~ 5% Kaolin mixed grinding are uniformly obtained compound；Compound is dispensed dress Enter in fire resistant sagger, carry out 1250 ~ 1320 DEG C of high temperature meltings, obtain the slurry of molten state；By slurry water quenching cooling, and it is broken into Graininess, prepared low temperature frit.

7. ink-jet according to claim 6 with the preparation method of antibacterial noctilucence low-temp ceramics ink it is characterised in that described Noctilucence flour complexes preparation method is as follows: weighs porous graphene and is configured to graphene aqueous solution, water bath sonicator 1 ~ 2h obtains all Even stable dispersion liquid；Nanometer long lad phosphor is added in deionized water, 500 ~ 1000kw ultrasonic vibration and 500 ~ Long lad phosphor dispersion liquid is obtained after the lower dispersion 300 ~ 600min of 1000r/min centrifugal speed stirring；Ultrasonic in 100 ~ 200w Lower be slowly added dropwise long lad phosphor dispersion liquid toward in graphene dispersing solution, the weight of porous graphene and fluorescent material than for 1:1 ~ 5, ultrasonic 60 ~ 90min, then stand, sucking filtration, drying, carry out 800 ~ 900 DEG C of heat treatment 30 ~ 60min under vacuum environment, system Obtain luminescent powder/porous graphene.

8. ink-jet according to claim 7 with the preparation method of antibacterial noctilucence low-temp ceramics ink it is characterised in that described Anhydrite is obtained by mixing by weight 3 ~ 5:1 ~ 2 by potassium feldspar and albite；Described fluoride salt is by sodium fluoride, calcium fluoride and lithium fluoride It is obtained by mixing by weight 4:2:1.

9. ink-jet according to claim 7 with the preparation method of antibacterial noctilucence low-temp ceramics ink it is characterised in that described Carbonate is made up of at least one in potassium carbonate, sodium carbonate, brium carbonate, lithium carbonate and Calcium Carbonate.

10. a kind of ink-jet antibacterial noctilucence low-temp ceramics ink, it contains the component of following percentage by weight: 25 ~ 38% colorants, 0.5 ~ 5% antibiotic complex, 1 ~ 5% noctilucence complex, 15 ~ 20% low temperature frits, 3 ~ 8% dispersants, 2 ~ 5% surface additives, 0.1 ~ 0.3% levelling agent, 0.3 ~ 0.8% defoamer, 0.5 ~ 1% bonding agent, 0.08 ~ 0.1% anti-settling agent, balance of solvent.