CN109622066A - A kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method - Google Patents

A kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method Download PDF

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Publication number
CN109622066A
CN109622066A CN201811630681.4A CN201811630681A CN109622066A CN 109622066 A CN109622066 A CN 109622066A CN 201811630681 A CN201811630681 A CN 201811630681A CN 109622066 A CN109622066 A CN 109622066A
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fabric
nitrogen
poly
titanium dioxide
polyaniline
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杨瑞祥
刘保江
董锋
张海升
张俊
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Shanghai Ren Fu Environmental Protection & Technology Co Ltd
Donghua University
National Dong Hwa University
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Shanghai Ren Fu Environmental Protection & Technology Co Ltd
Donghua University
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J31/00Catalysts comprising hydrides, coordination complexes or organic compounds
    • B01J31/26Catalysts comprising hydrides, coordination complexes or organic compounds containing in addition, inorganic metal compounds not provided for in groups B01J31/02 - B01J31/24
    • B01J31/38Catalysts comprising hydrides, coordination complexes or organic compounds containing in addition, inorganic metal compounds not provided for in groups B01J31/02 - B01J31/24 of titanium, zirconium or hafnium
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J35/00Catalysts, in general, characterised by their form or physical properties
    • B01J35/30Catalysts, in general, characterised by their form or physical properties characterised by their physical properties
    • B01J35/39Photocatalytic properties

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Inorganic Chemistry (AREA)
  • Macromolecular Compounds Obtained By Forming Nitrogen-Containing Linkages In General (AREA)

Abstract

The present invention relates to a kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation methods.This method comprises: fabric/poly- nitrogen material preparation, fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation.This method effectively widens photoresponse region to near-infrared, the utilization rate of solar energy is substantially improved, catalysis material can be repeated several times recycling.

Description

A kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method
Technical field
The invention belongs to composite photocatalyst material preparation method field, in particular to a kind of fabric/poly- nitrogen/polyaniline/bis- The preparation method of titanium oxide catalysis material.
Background technique
With the quickening of China's industrialization and urbanization process, by organic pollutant, Polymer wastes, biomass pollution and Caused environmental pollution has become a serious social concern.Even if the organic dirt of certain low concentrations may also generate high poison Property, to constitute a serious threat to the ecosystem and human health.Traditional pollutant process technology, such as physical absorption, chemistry The methods of precipitating cannot completely remove these organic dirts, and may generate many other nocuousness in the actual operation process By-product causes secondary pollution.Therefore, it is necessary to a kind of effective " green " technologies by noxious pollutant be converted into innocuous substance and It not will cause secondary pollution.In order to solve these problems, a lot of research work person attempts to solve the problems, such as this with scientific method, with Realize the sustainable development of human society.In recent years, Photocatalitic Technique of Semiconductor is unanimously considered to solve environmental problem Effectively, the solution of green and most prospect.This technology has huge economic and social benefit in field of environmental improvement, It is even more especially to yield unusually brilliant results in the fields such as sewage treatment, air cleaning and antibacterial of keeping a public place clean.However, current most of photochemical catalysts Be primarily present following problems: (primarily responsive to ultraviolet light) too low to solar energy utilization ratio, quantum efficiency be low and recycling difficulty etc.. Therefore, the catalysis material designing and developing a kind of efficient catalytic and easily recycling is of great significance.
The common photochemical catalyst such as titanium dioxide, zinc oxide, tungstic acid, band gap is generally wider, and anti-light corrosivity is preferable, But its response region is mainly at ultra-violet (UV) band (account for solar energy 5% or so).Therefore, the photoresponse model of photochemical catalyst is widened It encloses, improves the utilization rate to sunlight, be the important research direction of current photocatalysis technology.Currently used method has noble metal Doping, semiconductors coupling and ion doping etc..Studies have shown that these methods successfully optical response range can be extended to it is visible Light area, but wavelength can be widened successfully to rarely having near infrared region to and heard of (visible light account for solar energy 45%).
It in order to effectively load to catalysis material on fabric, and does not influence its catalytic efficiency as far as possible, there is researcher Once by the way of padding by photocatalyst to fabric, research shows that loaded using this method, binding strength compared with It is good, but it only also is covered on fiber surface since catalyst is most of, the catalyst into fibrous inside is less and keeps its water-fast It is poor to wash fastness;And cause fabric corrosion more serious since the pick-up of padding method is higher.Also there is researcher using colloidal sol- The method of gel loads to catalyst on fabric, the advantage is that simple process and can effectively improve fabric self-cleaning effect (by controlling surface roughness), but generally carry out load using the method and high temperature is needed to bake, fabric can be caused so directly Damage, also results in catalyst agglomeration, influences photocatalysis effect.Simultaneously as catalyst forms chemical bond in conjunction with fabric Active force is faint, repeatedly easily falls off after washing, substantially reduces its photocatalysis efficiency.Compare patent CN201611095874.5, CN201611095891.9, the catalyst that these patents use all are under visible light, to light source benefit With rate, and it is weaker with the active force of fiber, its repeat performance is influenced, secondary pollution is caused, seriously constrains technology Industrial applications, this patent overcomes existing patent insufficient, using high performance catalyst under near infrared light, and passes through covalent bond side Formula and fiber combine, and durability is good, and repeat performance is good.
Summary of the invention
Technical problem to be solved by the invention is to provide a kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis materials Preparation method, to overcome the defect that photochemical catalyst is low to solar energy utilization ratio in the prior art and catalytic efficiency is low.
A kind of fabric of the invention/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method, comprising:
(1) in a solvent by triphosphazene dispersion, stirring is immersed fabric (5cm*5cm), and melamine is added and continues to stir Mix, light irradiation is washed, dry, obtain fabric/poly- nitrogen material, wherein the ratio of triphosphazene and solvent be 1.50~ The molar ratio of 3.00mmol:150~200mL, triphosphazene and melamine is 1.5~3:0.75~1.5;
It (2) is that 0.0088~0.0176:0.0025~0.005 is dissolved in solvent with molar ratio by aniline monomer and titanium dioxide In, fabric/poly- nitrogen material makes its adsorption of aniline monomer and titanium dioxide in investment step (1), and ammonium persulfate solution is added dropwise, considerable It observes fabric and becomes deep blackish green by white, wash, it is dry, fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material is obtained, The volume ratio of middle aniline monomer and solvent is 0.8~1.6:120~180, and the molar ratio of aniline monomer and ammonium persulfate is 0.0088~0.0176:0.0005~0.003.
Solvent is acetonitrile in the step (1).
Fabric is cotton fabric, dacron, kevlar fabric, acrylic fabric, viscose fabric, carbon cloth, glass in the step (1) It is glass fabric, spandex fabric, nylon fabric, silk fabric, one or several kinds of in wool fabric.
Stirring and continuation mixing time are 30~60min in the step (1).
The technological parameter that light irradiates in the step (1) are as follows: use high-pressure sodium lamp, power is 100~200W, irradiation time For 12~for 24 hours.
Washing is washed for several times with acetonitrile in the step (1).
Drying is dry 2~12h at 60~80 DEG C in the step (1).
Solvent is 0.8~1.2mol/L hydrochloric acid in the step (2).
The time of adsorption of aniline monomer and titanium dioxide is 1~2h in the step (2).
Ammonium persulfate solution is added dropwise in the step (2) to be carried out at 0-5 DEG C of temperature.
Ammonium persulfate concentrations are 0.5mol/L~1mol/L in the step (2).
Washing is to be washed with deionized for several times in the step (2).
Drying is dry 4~6h at 60~80 DEG C in the step (2).
The present invention provides a kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method preparations to knit Object/poly- nitrogen/polyaniline/titanium dioxide catalysis material.
The present invention also provides a kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method preparations to knit Object/poly- nitrogen/polyaniline/titanium dioxide catalysis material application.
The present invention is first to obtain fabric/poly- nitrogen material, and the aniline of titanium dioxide is then blended with using chemical oxidization method Monomer is arranged onto fabric/poly- nitrogen material, and obtaining fabric/poly- nitrogen/polyaniline/titanium dioxide, efficiently repeatable be recycled is catalyzed Material.
The present invention can widen optical response range to the poly- nitrogen of near-infrared due to introducing, and can be substantially improved to solar energy Utilization rate (nearly 50%);Polyaniline is introduced on the poly- nitrogen with high efficiency photocatalysis activity again, can effectively delay electronics and sky Cave it is compound to increase more active sites so that catalytic activity further strengthens;Poly- nitrogen is set to pass through chemical bond and fabric again In conjunction with being greatly improved recycling performance, it is often more important that influenced on its catalytic activity smaller.
Beneficial effect
The present invention it is low in cost, easy to operate and can large-scale industrial production, effectively widen photoresponse region to close red Outside, existing flexible catalysis material to the response of light within 550nm, catalysis material prepared by the present invention 600-2000nm all There is different degrees of absorption to light, the utilization rate of solar energy is substantially improved, composite catalyzing material catalytic performance is excellent, using chemistry Mode loads, and greatly improves closed matereial cycle rate, and number is recycled on the influence of the catalytic activity of photochemical catalyst itself It is smaller, it can be widely applied to organic pollutant degradation field and prepare the simple organics such as methane by restoring carbon dioxide, It has broad application prospects and market prospects.
Specific embodiment
Present invention will be further explained below with reference to specific examples.It should be understood that these embodiments are merely to illustrate the present invention Rather than it limits the scope of the invention.In addition, it should also be understood that, after reading the content taught by the present invention, those skilled in the art Member can make various changes or modifications the present invention, and such equivalent forms equally fall within the application the appended claims and limited Range.
Embodiment 1
(1) 1.5mmol triphosphazene is dispersed in 150mL acetonitrile, stirs 30min, immersed cotton fabric (5cm*5cm), Then it is gradually added 0.75mmol melamine and stirs 30min, then irradiate 12h at the high-pressure sodium lamp of 150W (ultraviolet lamp) Afterwards, the dry 2h for several times and at 60 DEG C is washed with acetonitrile, obtains cotton fabric/poly- nitrogen material.
(2) then the aniline monomer of 0.8mL and 0.2g titanium dioxide are dissolved in 120mL hydrochloric acid (0.8mol/L), put into cotton Fabric/poly- nitrogen material makes its adsorption of aniline monomer 1h, and mixeding liquid temperature is made to be maintained at 0 DEG C or so under ice bath, then slowly drips Add 1mL ammonium persulfate solution (0.5mol/L), fabric can be observed by white and become deep blackish green, finally washed by deionization The dry 5h for several times and at 70 DEG C is washed, cotton fabric/poly- nitrogen/polyaniline/TiO is obtained2It is efficiently repeatable that catalysis material is recycled.
Embodiment 2
(1) 2.25mmol triphosphazene is dispersed in 175mL acetonitrile, stirs 30min, immersed cotton fabric (5cm*5cm), Then it is gradually added 0.75mmol melamine and stirs 45min, then irradiate 16h at the high-pressure sodium lamp of 150W (ultraviolet lamp) Afterwards, the dry 2h for several times and at 60 DEG C is washed with acetonitrile, obtains cotton fabric/poly- nitrogen material.
(2) then the aniline monomer of 1.2mL and 0.3g titanium dioxide are dissolved in 160mL hydrochloric acid (1mol/L), investment cotton is knitted Object/poly- nitrogen material makes its adsorption of aniline monomer 1.5h, and mixeding liquid temperature is made to be maintained at 2 DEG C or so under ice bath, then slowly drips Add 2mL ammonium persulfate solution (0.75mol/L), fabric can be observed by white and become deep blackish green, finally pass through deionized water 5h is dried in washing for several times and at 70 DEG C, obtains cotton fabric/poly- nitrogen/polyaniline/TiO2It is efficiently repeatable that catalysis material is recycled Material.
Embodiment 3
(1) 3mmol triphosphazene is dispersed in 200mL acetonitrile, stirs 30min, immersed cotton fabric (5cm*5cm), connect Be gradually added 1.5mmol melamine and stir 60min, then the high-pressure sodium lamp of 150W (ultraviolet lamp) irradiation for 24 hours after, use 2h is dried in acetonitrile washing for several times and at 60 DEG C, obtains cotton fabric/poly- nitrogen material.
(2) then the aniline monomer of 1.6mL and 0.4g titanium dioxide are dissolved in 180mL hydrochloric acid (1.2mol/L), put into cotton Fabric/poly- nitrogen material makes its adsorption of aniline monomer 2h, and mixeding liquid temperature is made to be maintained at 5 DEG C or so under ice bath, then slowly drips Add 3mL ammonium persulfate solution (1mol/L), fabric can be observed by white and become deep blackish green, finally washed by deionized water 4h is dried for several times and at 80 DEG C, obtains the efficiently repeatable recycling catalysis material of cotton fabric/poly- nitrogen/polyaniline.
It is unified to prepare reactive brilliant blue RB-19 (concentration 50mg/L), cotton fabric prepared by Application Example 1~3/poly- Nitrogen/polyaniline/titanium dioxide is efficiently repeatable to be recycled in catalysis material and comparative example 1-2 catalysis material near infrared light Under to dyestuff carry out degradation 2 hours, degradation rate is as follows:
Embodiment number Degradation rate (the 1st time) Degradation rate (after circulation 30 times)
Embodiment 1 98.02% 93.89%
Embodiment 2 98.21% 93.13%
Embodiment 3 98.82% 93.92%
Comparative example 1 40.24% 18.25%
Comparative example 2 39.91% 17.97%
Comparative example 1
(1) 200mg CNTs is added to the 30%FeCl of 40mL2In solution, pH=3 is adjusted, 40mL is then added H2O2, room temperature ultrasound 2h, room temperature magnetic agitation 8h add water 500mL, filter washing to neutrality, filter.It is dried in vacuo at 60 DEG C Product a is obtained for 24 hours;Under logical condition of nitrogen gas, under the conditions of drying nitrogen, disperse 3g product a in dry three-necked flask In 200mL DMF, ice-water bath is cooling, 0 DEG C of addition NaH 522mg, continues to stir 30min.Then it is gradually warmed up to 90 DEG C, dropwise 3mL 1- perfluoro-hexyl iodide is added, ultrasonic reaction is for 24 hours.Add a small amount of water quenching reaction, successively DMF, second alcohol and water centrifuge washing.? To black particle product b in vacuum drying oven 50 DEG C of dry 96h;2g product b is dispersed in 50mL water, 438mg is added NaOH, ultrasonic disperse 1h, 2g Cyanuric Chloride are dispersed in 50mL water, are added in three-necked flask, 0~5 DEG C is stirred to react 48h.According to It is secondary to use water and ethyl alcohol centrifuge washing.25 DEG C of vacuum drying 96h, obtain product c;Under logical condition of nitrogen gas, in dry three-necked flask 1.5g product c, triethylamine 2.4mL, DMF 150mL is added.Ice-water bath is cooling, and acryloyl chloride 1mL is added dropwise at 0 DEG C and (is dissolved in 10mL DMF), ultrasonic reaction is for 24 hours.Successively use second alcohol and water centrifuge washing.Obtained black solid product d, room temperature in vacuo dry It is dry;Product d 1g is added in three-necked flask, 0.3mL DBU (0.5mol) is dissolved in by dimethylphosphite 415mg, DMF 150mL It in 20mL DMF, is added dropwise in above-mentioned three-necked flask, 25 DEG C of ultrasonic reaction 48h.Successively use second alcohol and water centrifuge washing The drying of (300mL × 3 time) room temperature in vacuo, obtains multifunctional carbon nanotube e.
(2) by FeVO4, disodium ethylene diamine tetraacetate (stabilizer), mass ratio be 1:3 triblock polyether P123 and three it is embedding Response type carbon nanotube is added to concentration and is in the mixture (template) and above-mentioned steps (1) of section copolymer F127 In the buffer of 0.025mol/L sodium dihydrogen phosphate and 0.05mol/L dibastic sodium phosphate composition, 30min is stirred, suspension is formed;Its Middle FeVO4Concentration be 0.01mol/L, the concentration of stabilizer is 0.01mol/L, the concentration of template is 0.05mol/L.
It (3) is 5 with the pH value that the sodium hydrate aqueous solution of concentration 0.5mol/L adjusts above-mentioned suspension, at 80 DEG C of heating, Flow back 6h, and filtering obtains reaction product;Wherein FeVO4Mass ratio with carbon nanotube is 1:5.
(4) by fiber impregnation to contain the compound FeVO of 0.05g/L carbon nanotube4Disperse with 0.025g/L polyethylene glycol 2000 In liquid, 60 DEG C of reaction 2h are dried, and washing, repeated impregnations are dried water-washing process 3 times, and fiber/carbon nanotube/FeVO is made4It is three-dimensional Recyclable efficient catalytic material.
Comparative example 2
(1) 200mg CNTs is added to the 30%FeCl of 40mL2In solution, pH=3 is adjusted, 40mL is then added H2O2, room temperature ultrasound 2h, room temperature magnetic agitation 8h add water 500mL, filter washing to neutrality, filter.It is dried in vacuo at 60 DEG C Product a is obtained for 24 hours;Under logical condition of nitrogen gas, under the conditions of drying nitrogen, disperse 3g product a in dry three-necked flask In 200mL DMF, ice-water bath is cooling, 0 DEG C of addition NaH 522mg, continues to stir 30min.Then it is gradually warmed up to 90 DEG C, dropwise 3mL 1- perfluoro-hexyl iodide is added, ultrasonic reaction is for 24 hours.Add a small amount of water quenching reaction, successively DMF, second alcohol and water centrifuge washing.? To black particle product b in vacuum drying oven 50 DEG C of dry 96h;2g product b is dispersed in 50mL water, 438mg is added NaOH, ultrasonic disperse 1h, 2g Cyanuric Chloride are dispersed in 50mL water, are added in three-necked flask, 0~5 DEG C is stirred to react 48h.According to It is secondary to use water and ethyl alcohol centrifuge washing.25 DEG C of vacuum drying 96h, obtain product c;Under logical condition of nitrogen gas, in dry three-necked flask 1.5g product c, triethylamine 2.4mL, DMF 150mL is added.Ice-water bath is cooling, and acryloyl chloride 1mL is added dropwise at 0 DEG C and (is dissolved in 10mL DMF), ultrasonic reaction is for 24 hours.Successively use second alcohol and water centrifuge washing.Obtained black solid product d, room temperature in vacuo dry It is dry;Product d 1g is added in three-necked flask, 0.3mL DBU (0.5mol) is dissolved in by dimethylphosphite 415mg, DMF 150mL It in 20mL DMF, is added dropwise in above-mentioned three-necked flask, 25 DEG C of ultrasonic reaction 48h.Successively use second alcohol and water centrifuge washing The drying of (300mL × 3 time) room temperature in vacuo, obtains multifunctional carbon nanotube e.
(2) by TiO2, disodium ethylene diamine tetraacetate (stabilizer), mass ratio be 1:3 triblock polyether P123 and three it is embedding Response type carbon nanotube is added to concentration and is in the mixture (template) and above-mentioned steps (1) of section copolymer F127 In the buffer of 0.025mol/L sodium dihydrogen phosphate and 0.05mol/L dibastic sodium phosphate composition, 30min is stirred, suspension is formed;Its Middle TiO2Concentration be 0.01mol/L, the concentration of stabilizer is 0.01mol/L, the concentration of template is 0.05mol/L.
It (3) is 5 with the pH value that the sodium hydrate aqueous solution of concentration 0.5mol/L adjusts above-mentioned suspension, at 80 DEG C of heating, Flow back 6h, and filtering obtains reaction product;Wherein TiO2Mass ratio with carbon nanotube is 1:5.
(4) by fiber impregnation to contain 0.05g/L carbon nanotube composite Ti O2Disperse with 0.025g/L polyethylene glycol 2000 In liquid, 60 DEG C of reaction 2h are dried, and washing, repeated impregnations are dried water-washing process 3 times, and fiber/carbon nanotube/TiO is made2It is three-dimensional Recyclable efficient catalytic material.

Claims (10)

1. a kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method, comprising:
(1) in a solvent by triphosphazene dispersion, fabric is immersed in stirring, and melamine is added and continues to stir, and light irradiation is washed Wash, it is dry, obtain fabric/poly- nitrogen material, wherein the ratio of triphosphazene and solvent be 1.50~3.00mmol:150~ The molar ratio of 200mL, triphosphazene and melamine is 1.5~3:0.75~1.5;
It (2) is that 0.0088~0.0176:0.0025~0.005 is dissolved in solvent with molar ratio by aniline monomer and titanium dioxide, Fabric/poly- nitrogen material makes its adsorption of aniline monomer and titanium dioxide in investment step (1), and ammonium persulfate solution is added dropwise, and washs, and does It is dry, obtain fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material, wherein the volume ratio of aniline monomer and solvent be 0.8~ The molar ratio of 1.6:120~180, aniline monomer and ammonium persulfate is 0.0088~0.0176:0.0005~0.003.
2. the method according to claim 1, wherein solvent is acetonitrile in the step (1).
3. the method according to claim 1, wherein in the step (1) fabric be cotton fabric, dacron, Kevlar fabric, acrylic fabric, viscose fabric, carbon cloth, glass fabric, spandex fabric, nylon fabric, silk fabric, wool It is one or several kinds of in fabric.
4. the method according to claim 1, wherein stirring and continuation mixing time are 30 in the step (1) ~60min.
5. the method according to claim 1, wherein the technological parameter that light irradiates in the step (1) are as follows: use High-pressure sodium lamp, power be 100~200W, irradiation time be 12~for 24 hours.
6. the method according to claim 1, wherein solvent is 0.8~1.2mol/L salt in the step (2) Acid;The time of adsorption of aniline monomer and titanium dioxide is 1~2h.
7. the method according to claim 1, wherein it is in temperature that ammonium persulfate solution is added dropwise in the step (2) It is carried out at 0-5 DEG C of degree.
8. the method according to claim 1, wherein ammonium persulfate solution concentration is in the step (2) 0.5mol/L~1mol/L.
9. a kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material of method preparation as described in claim 1.
10. a kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material application of method preparation as described in claim 1.
CN201811630681.4A 2018-12-29 2018-12-29 A kind of fabric/poly- nitrogen/polyaniline/titanium dioxide catalysis material preparation method Pending CN109622066A (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103981719A (en) * 2014-05-23 2014-08-13 青岛大学 Method for preparing anti-ultraviolet polyaniline titanium dioxide conductive fabric
CN105970601A (en) * 2016-06-07 2016-09-28 浙江大学 Method for preparing titanium dioxide nanorod/polypyrrole/dacron compound fabric
CN106345533A (en) * 2016-08-25 2017-01-25 常州大学 Preparation method of titanium dioxide/polyaniline/carbon nitride Z-form heterojunction photocatalytic material

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103981719A (en) * 2014-05-23 2014-08-13 青岛大学 Method for preparing anti-ultraviolet polyaniline titanium dioxide conductive fabric
CN105970601A (en) * 2016-06-07 2016-09-28 浙江大学 Method for preparing titanium dioxide nanorod/polypyrrole/dacron compound fabric
CN106345533A (en) * 2016-08-25 2017-01-25 常州大学 Preparation method of titanium dioxide/polyaniline/carbon nitride Z-form heterojunction photocatalytic material

Non-Patent Citations (1)

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Title
章天涯: "碳纤维布上氮化碳纳米材料的制备及其光催化性能研究", 《中国优秀硕士学位论文全文数据库 工程科技Ⅰ辑》 *

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Application publication date: 20190416