CN106076425A - A kind of textile fabric/Graphene/BiPO4the preparation method of combinational environment catalysis material - Google Patents

Abstract

The present invention relates to a kind of textile fabric/Graphene/BiPO₄The preparation method of combinational environment catalysis material, including: textile fabric is impregnated in the saturated dispersion liquid of graphene oxide, then dries, clean, be subsequently placed in reductant solution, 50～80 DEG C of reactions 0.5～1h, clean, dry, obtain textile fabric/Graphene；Textile fabric/Graphene is joined Bi (NO₃)₃And Na₃PO₄In solution, stirring, it is subsequently adding NaH₂PO₄And carbamide, 120～180 DEG C of hydro-thermal reactions 3～8h, wash after cooling, dry, obtain textile fabric/Graphene/BiPO₄Combinational environment catalysis material.The method of the present invention is simple, is suitable for industrialized production；The composite obtained has preferable depollution of environment effect.

Description

A kind of textile fabric/Graphene/BiPO4The preparation method of combinational environment catalysis material

Technical field

The invention belongs to the preparation field of environmental catalysis material, particularly to a kind of textile fabric/Graphene/BiPO₄Multiple The preparation method of cyclization border catalysis material.

Background technology

Environmental resource is that human society is depended on for existence the important foundation of development, and the improvement of environment and protection run through people always The developing history of class industrial society, is directly connected to the sustainable development of human society.Shortage of water resources is that society faces A major issue, the most important thing processing always environmental area of industrial wastewater.In recent years, in actual waste water, some are low Concentration toxic pollutant such as conjugated dye, chlorinated aromatic compound, PBDE, antibiotic etc. process and have become as the world The focus of research.Industrial commonly used absorption and Biochemical method, toxic pollutant is simply transferred to by absorption method from liquid phase Solid phase, is not completely eliminated organic pollution, and Biochemical method cycle length, hold facility area are big, can be organic because of dyestuff etc. Biological toxic action can not effectively be removed by thing.By comparison, high-level oxidation technology is by producing the work of strong oxidizing property Property kind can directly the Organic substances such as dyestuff effectively be degraded, even thoroughly mineralising, cause the extensive concern of people, but these senior oxygen Change technology also has certain limitation, and as easily brought secondary pollution, processing cost is high, be not suitable for the process of big flow waste water and in a large number In the presence of organic/inorganic compound, the preferential removal to toxic target pollutant is extremely difficult, therefore designs and develops a kind of efficient Remove the catalyst system and catalyzing of toxic target pollutant in actual waste water system to have great importance.

In order at the efficient micro-nano structure of textile fabric surface construction, and overcome the using catalysis fibre performance of binding agent Harmful effect, researcher trial utilizes sol-gel dressed method to prepare catalysis fiber, and result of study shows prepared by this method Catalysis fibre have certain catalytic performance, but there is following problems: the solidification of (1) gel at high temperature to be carried out, right The physical and mechanical properties of textile fabric has an impact, as bigger in tearing brute force loss；(2) what prepared by sol-gel process is unglazed urging Change the unbodied nano-photocatalyst of performance, therefore to make it to required crystal conversion by certain approach, and crystalline phase need to be improved Degree of crystallinity, reduce lattice defect；(3) high temperature sintering is that current amorphous phase changes to sizing and raising degree of crystallinity is most common Method, but its calcining heat typically wants 300 DEG C or above temperature could realize, it is clear that conventional textile fibers can not bear as This high temperature, this is that sol-gal process is applied to common problem during organic supporting substrates；(4) photocatalyst is with fine Tieing up direct contact and can make fiber generation photooxidative degradation, result causes the physical and mechanical properties of textile fabric to decline.Therefore the party The application of method is extremely restricted.Under cryogenic, it is achieved nano-photocatalyst is worked as to being converted into of setting from amorphous Front study hotspot.The solution of this difficult problem, is to seek a kind of low temperature system that can walk around high temperature crystal growth and phase transformation link The method of standby high efficiency photocatalyst, is processed textile fabric the most again.Low temperature process be use presoma be that presoma passes through Sol-gel technique prepares stable sol, and then fabricated in situ is to fiber surface, realizes nanometer in 100 DEG C of boiling water on fiber Photocatalyst is from amorphous state to the transformation of sizing state, and catalysis fiber prepared by the method is the most functional, and application is convenient, There is textile fabric by photooxidative degradation, the problems such as strength loss is big.By increasing burning on fibrous material further The approach of thing load capacity improves its photocatalysis performance, will cause the serious reunion of metal-oxide, and affecting catalysis material can profit Effective ratio area, change textile fabric/metal oxide materials loose structure, be unfavorable for that organic pollutant is at fibre Dimension material surface enrichment, also will affect the catalytic performance of catalysis material simultaneously.

Summary of the invention

The technical problem to be solved is to provide a kind of textile fabric/Graphene/BiPO₄Combinational environment catalysis material The preparation method of material, the method is simple, low cost, non-secondary pollution, it is easy to industrialized production；The composite obtained has relatively Good depollution of environment effect.

A kind of textile fabric/Graphene/BiPO of the present invention₄The preparation method of combinational environment catalysis material, including:

(1) being impregnated into by textile fabric in the saturated dispersion liquid of graphene oxide, 60～80 DEG C of drying, repeated impregnations is dried 2～3 times, clear water washs, and is subsequently placed in reductant solution, 50～80 DEG C of reactions 0.5～1h, makes the graphite oxide of fabric face Alkene is reduced to Graphene, cleans, and dries, obtains textile fabric/Graphene；

(2) textile fabric/Graphene in step (1) is joined Bi (NO₃)₃And Na₃PO₄In solution, stirring, then Add NaH₂PO₄And carbamide, 120～180 DEG C of hydro-thermal reactions 3～8h, after cooling wash, dry, obtain textile fabric/Graphene/ BiPO₄Combinational environment catalysis material.

Remove fiber surface impurity by acetone treatment before textile fabric uses in described step (1), be then vacuum dried；Oxygen Functionalized graphene is to be prepared by Hummers method；Textile fabric be textile fabric be cellulose fibre, protein fibre Or, the fiber made of regenerated fiber, synthetic fibers or the most any two kinds or three kinds of fiber blends.

Described textile fabric is flaxen fiber, cotton fiber or silk fiber.

The preparation method of described graphene oxide: 230～250mL concentrated sulphuric acids and 3～6g sodium nitrates are added in beaker, ice Water-bath cools down, the lower 10g graphite powder that adds of stirring, to be mixed uniformly after, be slowly added to after 30～50g potassium permanganate are finely ground, at 0 DEG C Stirring reaction 1～2h, obtains graphite intercalation complex；Be warmed up to 35～45 DEG C continue reaction 30～60min after, add 460～ 600mL deionized water, continues reaction 30～45min；Sequentially add 1400～1800mL deionized waters and 30～60ml30% (mass fraction) hydrogen peroxide, solution becomes vivid yellow from brick-red, after continuing reaction 10～25min, filters, with 2～4% Dilute hydrochloric acid washs, then with deionized water repeatedly centrifugal (8000rpm, 30～45min) washing, and 50～70 DEG C of vacuum dryings, To graphene oxide, being re-dispersed in water by graphene oxide, ultrasonic 30～50min, by dispersion liquid in vacuum drying oven Dry moisture for 40～60 DEG C and obtain graphene oxide.

In described step (1), the concentration of the saturated dispersion liquid of graphene oxide is 0.5～2mg/mL；The solvent of dispersion liquid is Water.

In described step (1), reducing agent is NaBH₄、Na₂S₂O₄、HI、N₂H₄Or glucose etc..

In described step (1), the bath raio of dipping is 15:1～6:1；The time of dipping is 15～30min.

Cleaning in described step (1) is: wash 2～3 times with warm water, to remove the reducing agent of surface adhesion；Dry temperature Degree is 60 DEG C.

Bi (NO in described step (2)₃)₃It is 1:20～1:50 with the mass ratio of textile fabric/Graphene.

Textile fabric/Graphene and NaH in described step (2)₂PO₄Mass ratio be 1:20～1:50.

Textile fabric/Graphene and Na in described step (2)₃PO₄Mass ratio be 1:100～1:200.

In described step (2), the mass ratio of textile fabric/Graphene and carbamide is 1:200～1:300.

In described step (2), washing is for being washed with deionized 3 times；Drying temperature is 60 DEG C.

The present invention utilizes the Graphene with high-specific surface area and high conduction performance in textile fabric surface construction three-dimensional even Continuous conductive network.Construct the Nano semiconductor material with controllable appearance, composition, size and loose structure the most further Material, thus form novel textile fabric/Graphene/heterogeneous semiconductor continuous grids structure, utilize flexible fibrous material many Permeability and capillary effect, make fiber can adsorb pollutant, the most again can be by absorption pollutant in fiber surface enrichment Thering is provided high concentration reactant bad border for nano-photocatalyst material, this accelerates photocatalytic degradation reaction rate to a great extent. Additionally, the adsorption of fiber is also possible to the intermediate by-products adsorbed and quilt when generating making photocatalytic degradation reaction produce It is degraded to simple inorganic matter further, such as carbon dioxide and water.So fiber can not only concentrate pollutant, accelerates light Catalytic degradation reaction, and intermediate by-products can be reduced, timely releasing product, constantly advance degradation reaction.The most abundant Playing high-specific surface area and high conduction performance effective discrete nucleation material of Graphene, increase catalyst contacts with pollutant Interface, provides more reactivity point for light-catalyzed reaction, and guarantees to realize the directional transmissions of light induced electron, effectively carry High its with hole separation efficiency, improve its photocatalytic activity.

Beneficial effect

(1) preparation method of the present invention is simple, low cost, does not increase new equipment, it is easy to industrialized production；

(2) the composite catalyzing material catalytic performance of the preparation of the present invention is good, and degradation rate more than 95% can be recycled.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is expanded on further.Should be understood that these embodiments are merely to illustrate the present invention Rather than restriction the scope of the present invention.In addition, it is to be understood that after having read the content that the present invention lectures, people in the art The present invention can be made various changes or modifications by member, and these equivalent form of values fall within the application appended claims equally and limited Scope.

Embodiment 1

(1) adding in beaker by 230mL concentrated sulphuric acid and 3g sodium nitrate, ice-water bath cools down, and stirring is lower adds 10g graphite powder, To be mixed uniformly after, be slowly added to after 30g potassium permanganate is finely ground, at 0 DEG C, stirring reaction 1h, obtains graphite intercalation complex；Rise After temperature to 35 DEG C continues reaction 30min, add 460mL deionized water, continue reaction 30min；Sequentially add 1400mL go from Sub-water and 30ml 30% hydrogen peroxide, solution becomes vivid yellow from brick-red, after continuing reaction 10min, filters, dilute with 2% Salt acid elution, then with deionized water repeatedly centrifugal (8000rpm, 30min) washing, 50 DEG C of vacuum dryings, obtains graphite oxide Alkene, is re-dispersed into graphene oxide in water, ultrasonic 30min, is obtained by dispersion liquid 40 DEG C of drying moisture in vacuum drying oven To graphene oxide；

(2) choose flaxen fiber to remove fiber surface impurity as carrier, use acetone soln, be then vacuum dried.Take oxygen Graphite is ultrasonic disperse in water, and preparation concentration is the saturated dispersion liquid of graphene oxide of 0.5mg/mL.The textile of 2g is soaked Stain, to the saturated dispersion liquid 30mL of graphene oxide, impregnates rear 60 DEG C of drying, and repeated impregnations is dried 2 times, and clear water washs.By above-mentioned The textile that graphene oxide processed is placed in the NaBH containing 2g₄In solution, it is warming up to 50 DEG C, reacts 0.5h, make fabric table The graphene oxide in face is reduced to Graphene.Then wash 2 times with warm water, to remove the reducing agent of surface adhesion, 60 DEG C of drying, Obtain flaxen fiber/Graphene.

(3) flaxen fiber/grapheme material obtained in step (2) is joined Bi (NO₃)₃And Na₃PO₄In solution, magnetic force Stirring 30min, then in solution, add NaH₂PO₄And carbamide, 120 DEG C of hydro-thermal reactions 3h.After natural cooling, use deionized water Wash 3 times, 60 DEG C of drying, synthesize flaxen fiber/Graphene/BiPO₄Three-dimensional combinational environment catalysis material.Wherein, flaxen fiber/graphite Alkene and Na₃PO₄Mass ratio be 1:200；Bi(NO₃)₃It is 1:50 with the mass ratio of flaxen fiber/Graphene；Flaxen fiber/Graphene And NaH₂PO₄Mass ratio be 1:50；The mass ratio of flaxen fiber/Graphene and carbamide is 1:300.

Embodiment 2

(1) adding in beaker by 240mL concentrated sulphuric acid and 4.5g sodium nitrate, ice-water bath cools down, and stirring is lower adds 10g graphite Powder, to be mixed uniformly after, be slowly added to after 40g potassium permanganate is finely ground, stirring reaction 1.5h at 0 DEG C, obtain graphite intercalation and be combined Thing；After being warmed up to 40 DEG C of continuation reaction 45min, add 530mL deionized water, continue reaction 37min；Sequentially add 1600mL Deionized water and 45ml 30% hydrogen peroxide, solution becomes vivid yellow from brick-red, after continuing reaction 18min, filters, uses 3% dilute hydrochloric acid washing, then with deionized water repeatedly centrifugal (8000rpm, 37min) washing, 60 DEG C of vacuum dryings, is aoxidized Graphene, is re-dispersed into graphene oxide in water, ultrasonic 340min, by dispersion liquid 50 DEG C of drying water in vacuum drying oven Get graphene oxide；

(2) choose cotton fiber to remove fiber surface impurity as carrier, use acetone soln, be then vacuum dried.Take oxygen Graphite is ultrasonic disperse in water, the saturated dispersion liquid of graphene oxide of preparation concentration 1.2mg/mL.The textile of 2.5g is soaked Stain, to the saturated dispersion liquid 25mL of graphene oxide, impregnates rear 70 DEG C of drying, and repeated impregnations is dried 2 times, and clear water washs.By above-mentioned The textile that graphene oxide processed is placed in the glucose solution containing 2.5g, is warming up to 65 DEG C, reacts 0.75h, makes to knit The graphene oxide on thing surface is reduced to Graphene.Then wash 2 times with warm water, to remove the reducing agent of surface adhesion, 60 DEG C Dry, obtain cotton fiber/Graphene.

(3) cotton fiber/grapheme material is joined Bi (NO₃)₃And Na₃PO₄In solution, magnetic force stirs 30min, then to molten Liquid adds appropriate NaH₂PO₄And carbamide, 150 DEG C of hydro-thermal reactions 5.5h.After natural cooling, it is washed with deionized 3 times, 60 DEG C of drying, synthesize cotton fiber/Graphene/BiPO₄Three-dimensional combinational environment catalysis material.Wherein, Bi (NO₃)₃With cotton fiber/stone The mass ratio of ink alkene is 1:30；Cotton fiber/Graphene and NaH₂PO₄Mass ratio be 1:30；Cotton fiber/Graphene and Na₃PO₄ Mass ratio be 1:150；The mass ratio of cotton fiber/Graphene and carbamide is 1:250.

Embodiment 3

(1) adding in beaker by 250mL concentrated sulphuric acid and 6g sodium nitrate, ice-water bath cools down, and stirring is lower adds 10g graphite powder, To be mixed uniformly after, be slowly added to after 50g potassium permanganate is finely ground, at 0 DEG C, stirring reaction 2h, obtains graphite intercalation complex；Rise After temperature to 45 DEG C continues reaction 60min, add 600mL deionized water, continue reaction 45min；Sequentially add 1800mL go from Sub-water and 60ml 30% hydrogen peroxide, solution becomes vivid yellow from brick-red, after continuing reaction 25min, filters, dilute with 4% Salt acid elution, then with deionized water repeatedly centrifugal (8000rpm, 45min) washing, 70 DEG C of vacuum dryings, obtains graphite oxide Alkene, is re-dispersed into graphene oxide in water, ultrasonic 50min, is obtained by dispersion liquid 60 DEG C of drying moisture in vacuum drying oven To graphene oxide；

(2) choose silk fiber to remove fiber surface impurity as carrier, use acetone soln, be then vacuum dried.Take Appropriate graphite oxide ultrasonic disperse in water, prepares the dense saturated dispersion liquid of the graphene oxide for 2mg/mL.By the textile of 3g Being impregnated into the saturated dispersion liquid 18mL of graphene oxide, impregnate rear 80 DEG C of drying, repeated impregnations is dried 3 times, and clear water washs.By upper State the textile that graphene oxide processed and be placed in the Na containing 3g₂S₂O₄In solution, it is warming up to 80 DEG C, reacts 1h, make fabric table The graphene oxide in face is reduced to Graphene.Then wash 3 times with warm water, to remove the reducing agent of surface adhesion, 60 DEG C of drying, Obtain silk fiber/Graphene.

(3) silk fiber/grapheme material is joined Bi (NO₃)₃And Na₃PO₄In solution, magnetic force stirs 30min, then to Solution adds appropriate NaH₂PO₄And carbamide, 180 DEG C of hydro-thermal reactions 8h.After natural cooling, it is washed with deionized 3 times, 60 DEG C of drying, synthesize silk fiber/Graphene/BiPO₄Three-dimensional combinational environment catalysis material.

Wherein, the Bi (NO described in step (3)₃)₃It is 1:20 with the mass ratio of silk fiber/Graphene；Silk fiber/ Graphene and NaH₂PO₄Mass ratio be 1:20；Silk fiber/Graphene described in step (3) and Na₃PO₄Mass ratio be 1:100；In step (3), the mass ratio of silk fiber/Graphene and carbamide is 1:200.

The dyeing waste water of the printing and dyeing mill sampled with the same time is for processing object, the embodiment 1 being separately added in waste water ～3 water treatment agents of gained, after 2 hours sun exposures, water treatment agent is as shown in table 1 to the percent of decolourization of dyeing waste water:

Table 1

Claims (10)

1. textile fabric/Graphene/BiPO₄The preparation method of combinational environment catalysis material, including:

(1) textile fabric is impregnated in the saturated dispersion liquid of graphene oxide, then dries, clean, be subsequently placed in reducing agent In solution, 50～80 DEG C of reactions 0.5～1h, clean, dry, obtain textile fabric/Graphene；

(2) textile fabric/Graphene in step (1) is joined Bi (NO₃)₃And Na₃PO₄In solution, stirring, it is subsequently adding NaH₂PO₄And carbamide, 120～180 DEG C of hydro-thermal reactions 3～8h, after cooling wash, dry, obtain textile fabric/Graphene/ BiPO₄Combinational environment catalysis material.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, in described step (1), textile fabric uses front acetone treatment, is then vacuum dried；Graphene oxide is logical Cross Hummers method to prepare；Textile fabric be cellulose fibre, protein fibre, regenerated fiber, synthetic fibers or its In the fiber made of any two or more fiber blends.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, in described step (1), the concentration of the saturated dispersion liquid of graphene oxide is 0.5～2mg/mL.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, in described step (1), reducing agent is NaBH₄、Na₂S₂O₄、HI、N₂H₄Or the one in glucose.

The preparation method of a kind of textile fabric/Graphene/BiPO4 combinational environment catalysis material the most according to claim 1, It is characterized in that, in described step (1), the bath raio of dipping is 15:1～6:1；The time of dipping is 15～30min.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, Bi (NO in described step (2)₃)₃It is 1:20～1:50 with the mass ratio of textile fabric/Graphene.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, textile fabric/Graphene and NaH in described step (2)₂PO₄Mass ratio be 1:20～1:50.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, textile fabric/Graphene and Na in described step (2)₃PO₄Mass ratio be 1:100～1:200.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, in described step (2), the mass ratio of textile fabric/Graphene and carbamide is 1:200～1:300.

A kind of textile fabric/Graphene/BiPO the most according to claim 1₄The preparation method of combinational environment catalysis material, It is characterized in that, in described step (2), washing is for being washed with deionized 3 times；Drying temperature is 60 DEG C.