CN102950016A

CN102950016A - Preparation method of ZnO / g-C3N4 composite photocatalyst

Info

Publication number: CN102950016A
Application number: CN201210421522XA
Authority: CN
Inventors: 董海军; 陈爱平; 曾炽涛; 何洪波; 夏淼
Original assignee: WUXI DIFAN LEIPU HIGH-NEW MATERIALS CO LTD; East China University of Science and Technology
Current assignee: WUXI DIFAN LEIPU HIGH-NEW MATERIALS CO LTD; East China University of Science and Technology
Priority date: 2012-10-29
Filing date: 2012-10-29
Publication date: 2013-03-06
Anticipated expiration: 2032-10-29
Also published as: CN102950016B

Abstract

The invention relates to a preparation method of a ZnO / g-C3N4 composite photocatalyst. A two-stage solvent thermal / ultrasonic dispersing method is employed to prepare the ZnO / g-C3N4 composite photocatalyst. After the two-stage solvent thermal treatment, porous ZnO nano crystalline with high dispersion grown on the g-C3N4 can be obtained, and the ZnO nanocrystalline and the g-C3N4 can form a good composite structure; the ultrasonic treatment reduces agglomeration among the ZnO / g-C3N4 composite particles, and improves dispersion of the composite catalyst; and the nano composite particles with high dispersion strengthen effective utilization of sun light by the catalyst, and improve activity of the catalyst. The preparation method provided by the invention has the advantages of cheap raw materials and simple process; and the prepared composite photocatalyst has a broad application prospects in the fields of wastewater treatment and gas purification.

Description

A kind of ZnO/g-C 3N 4The preparation method of composite photo-catalyst

[technical field]

The present invention relates to catalyst technical field, specifically, is a kind of ZnO/g-C ₃N ₄The preparation method of composite photo-catalyst.

[background technology]

Because the high speed development of economic society and increasing rapidly of population, environmental pollution and energy crisis become the severe challenge that current social development faces, and the energy of development and utilization clean and effective becomes the task of top priority of various countries.For this reason, how to utilize better solar energy to become the research emphasis of various countries.

Photochemical catalyst is because of its room temperature deep reaction and can directly or indirectly utilize solar energy to drive the advantages such as reaction, becomes a kind of desirable environmental pollution improvement and clean energy resource utilization and production technology.

Advantage becomes one of photochemical catalyst the most with potential applications in numerous semiconductor light-catalysts to ZnO because its spectrochemical property is stable, nontoxic, with low cost etc.But the spectral response of ZnO is at ultraviolet region, and because photo-generated carrier is very easily compound, causes quantum efficiency lower, restricted it to the utilization of solar energy and the performance of photocatalysis efficiency.

G-C ₃N ₄Be graphite-phase C ₃N ₄A kind of novel photochemical catalyst, owing to having good chemical stability, narrower energy gap (E _g=2.7eV) etc. advantage causes people's concern.By with g-C ₃N ₄Compound, can improve the separation of charge effect of ZnO photochemical catalyst, expand its light abstraction width.G-C ₃N ₄Reasonable (the g-C of relative position of energy band coupling with ZnO ₃N ₄The conduction band current potential more negative than the conduction band of ZnO, and the valence band current potential of ZnO compares g-C ₃N ₄Valence band corrigendum), can effectively realize the right separation in light induced electron hole that produces on two kinds of semiconductors, thereby improve significantly ZnO/g-C ₃N ₄The photocatalysis performance of compound.

Existing making ZnO/g-C ₃N ₄The method of composite photo-catalyst mainly contains ball-milling method.Ball-milling method is generally distinguished making ZnO and g-C in advance ₃N ₄Then pressed powder is transferred to the ball milling mixing regular hour in the ball mill to them, obtains at last the ZnO/g-C of little (receiving) meter level ₃N ₄Although the standby technique of this legal system is easier, the ZnO/g-C of preparation ₃N ₄In the particle, ZnO and g-C ₃N ₄Between the composite construction that mutually combines a little less than, can not give full play to two kinds of energy level matching effects between semiconductor, and easily form aggregate structure between particle, seriously reduced catalyst activity.

[summary of the invention]

The object of the invention is to overcome the deficiencies in the prior art, a kind of ZnO/g-C is provided ₃N ₄The preparation method of composite photo-catalyst.The inventive method has that raw material is easy to get, the characteristics of simple process, the ZnO/g-C of preparation ₃N ₄Photochemical catalyst has preferably dispersed and larger specific area, not only can absorb efficiently sunshine, and can be by ZnO and g-C ₃N ₄Between stronger compound action, effectively realize the separation of electron hole, improve significantly the photocatalysis efficiency of composite photo-catalyst.

The objective of the invention is to be achieved through the following technical solutions:

A kind of ZnO/g-C ₃N ₄The preparation method of composite photo-catalyst, its concrete steps are:

Be zinc acetate with raw material, ethanol, diethanol amine, protonated g-C ₃N ₄, strong agitation is mixed 1～10h, and being preferably is 3～7h; Then mixed system is transferred in the polytetrafluoroethyllining lining autoclave 110～160 ℃ of solvent thermal reaction 10～50h, 160～200 ℃ of solvent thermal reaction 10～50h; Cooled and filtered, filter cake are disperseed in deionized water for ultrasonic, washing, filter, supersound washing repeatedly, until filtrate pH is 6.8～7.2, the filter cake oven dry, and in air atmosphere 450～600 ℃ of roasting 1～10h, roasting time is preferably 3～7h; Obtain ZnO/g-C ₃N ₄The composite photo-catalyst powder.

Described material quality is than being zinc acetate: ethanol: diethanol amine: protonated g-C ₃N ₄=1: (5.0～50.0): (10.0～50.0): (0.1～10.0).

ZnO/g-C of the present invention ₃N ₄Photochemical catalyst has following characteristics: by low-temperature solvent heat treatment, formation has high specific surface area, high dispersive, porous ZnO nanocrystal, and granular size is about 20-150nm, and high dispersive is at g-C ₃N ₄The nanocrystalline effectively adsorb organic compound of lip-deep porous ZnO; By the high temperature section solvent heat treatment, make ZnO nano crystalline substance and g-C ₃N ₄Form suitable composite construction, be conducive to electronics from g-C ₃N ₄Effectively move to ZnO, strengthened the separating effect of electron hole, and increased the degree of crystallinity of ZnO, further improved the activity of composite photo-catalyst.

Compared with prior art, good effect of the present invention is:

Adopt two-part solvent thermal reaction condition, low-temperature zone is conducive to the quick nucleation of ZnO, at g-C ₃N ₄It is nanocrystalline that upper growth in situ goes out the porous ZnO of polymolecularity, suppressed the reunion of nano particle, improves the specific area of ZnO.ZnO surface band negative electrical charge, the solvent heat treatment under the hot conditions is conducive to ZnO and positively charged protonated g-C ₃N ₄Useful effect occurs, and impels ZnO to be attached to g-C ₃N ₄The surface forms preferably composite construction by the high temperature section solvent heat treatment, and high-temperature solvent heat treatment has improved the degree of crystallinity of ZnO.

At ZnO/g-C ₃N ₄The preparatory phase of photochemical catalyst adopts ultra-sonic dispersion method, can more effectively disperse ZnO/g-C ₃N ₄Aggregate between composite nanometer particle has increased the dispersiveness of composite particles.The Nano composite granules of polymolecularity has improved the utilization rate to sunshine, has strengthened ZnO/g-C ₃N ₄Photocatalysis efficiency.

The ZnO/g-C that obtains by preparation method of the present invention ₃N ₄Composite photo-catalyst can ultraviolet light, visible light and sunshine be light source, is applicable to photocatalysis degradation organic contaminant, photocatalytic hydrogen production by water decomposition.

[specific embodiment]

The present invention below is provided a kind of ZnO/g-C ₃N ₄The preparation method's of composite photo-catalyst the specific embodiment.

Embodiment 1

ZnO/g-C ₃N ₄Preparation adopt two-part solvent heat-ultrasonic method.According to zinc acetate, ethanol, diethanol amine, g-C ₃N ₄Mass ratio=1: 10: 20: 1.5 ratio is mixed, strong agitation 6h; Then mixed system is transferred in the polytetrafluoroethyllining lining autoclave 150 ℃ of reaction 24h, 190 ℃ of reaction 24h; (frequency is 40KH in afterwards after filtration, ultrasonic dispersion _Z, power is 300W), the washing, repeat four times after, filtration cakes torrefaction, and in air atmosphere 500 ℃ of roasting 2h; Grind into powder after the cooling.

Embodiment 2

ZnO/g-C ₃N ₄Preparation adopt two-part solvent heat-ultrasonic method.ZnO/g-C ₃N ₄Preparation according to zinc acetate, ethanol, diethanol amine, g-C ₃N ₄Mass ratio=1: 15: 20: 2.0 ratio is mixed, strong agitation 8h; Then mixed system is transferred in the polytetrafluoroethyllining lining autoclave 130 ℃ of reaction 30h, 180 ℃ of reaction 18h; (frequency is 40KH in afterwards after filtration, ultrasonic dispersion _Z, power is 600W), the washing, repeat four times after, filtration cakes torrefaction, and in air atmosphere 500 ℃ of roasting 1h; Grind into powder after the cooling.

Reference examples 1

Choose reference examples 1 in order to carry out Contrast on effect with embodiment.Reference examples 1 adopts one-part form solvent heat-ultrasonic method.ZnO/g-C ₃N ₄Preparation according to zinc acetate, ethanol, diethanol amine, g-C ₃N ₄Mass ratio=1: 15:20: 2.0 ratio is mixed, strong agitation 6h; Then mixed system is transferred in the polytetrafluoroethyllining lining autoclave, 180 ℃ of reaction 48h, afterwards after filtration, (frequency is 40KH in ultrasonic dispersion _Z, power is 600W), the washing, repeat four times after, filtration cakes torrefaction, and in air atmosphere 500 ℃ of roasting 1h; Grind into powder after the cooling.

Reference examples 2

Choose reference examples 2 in order to carry out Contrast on effect with embodiment.Reference examples 2 adopts the two-part solvent-thermal method, but does not adopt ultrasonic dispersion technology.ZnO/g-C ₃N ₄Preparation according to zinc acetate, ethanol, diethanol amine, g-C ₃N ₄Mass ratio=1: 15: 20: 2.0 ratio is mixed, strong agitation 6h; Then mixed system is transferred in the polytetrafluoroethyllining lining autoclave 150 ℃ of reaction 20h, 190 ℃ of reaction 36h; Afterwards after filtration, agitator treating, repeat four times after, filtration cakes torrefaction is opened 500 ℃ of roasting 1h in air atmosphere; Grind into powder after the cooling.

Subordinate list embodiment, reference examples specific area and MO degradation rate table

Methyl orange in the table (MO) degradation experiment condition is: catalytic amount is 1g/L, and methyl orange (MO) concentration is 20ml/L, radiation of visible light 3h.

From the result of subordinate list as seen, the composite photo-catalyst according to two-part solvent heat of the present invention-ultra-sonic dispersion method preparation has good photocatalytic activity.

The above only is preferred embodiment of the present invention; should be pointed out that for those skilled in the art, without departing from the inventive concept of the premise; can also make some improvements and modifications, these improvements and modifications also should be considered within the scope of protection of the present invention.

Claims

1. ZnO/g-C ₃N ₄The preparation method of composite photo-catalyst is characterized in that, concrete steps are:

Be zinc acetate with raw material, ethanol, diethanol amine, protonated g-C ₃N ₄, mix 1～10h; Then mixed system is transferred in the polytetrafluoroethyllining lining autoclave 110～160 ℃ of solvent thermal reaction 10～50h, 160～200 ℃ of solvent thermal reaction 10～50h; Cooled and filtered, filter cake are disperseed in deionized water for ultrasonic, washing, filter, supersound washing repeatedly, until filtrate pH is 6.8～7.2, the filter cake oven dry, and in air atmosphere 450～600 ℃ of roasting 1～10h; Obtain ZnO/g-C ₃N ₄Composite photo-catalyst powder art.

2. a kind of ZnO/g-C as claimed in claim 1 ₃N ₄The preparation method of composite photo-catalyst is characterized in that, at ZnO/g-C ₃N ₄The preparatory phase of photochemical catalyst adopts two-part solvent heat treatment method, 110～160 ℃ of processing of low-temperature zone, 10～50h, and high temperature is forged 160～200 ℃ and is processed 10～50h.

3. a kind of ZnO/g-C as claimed in claim 1 ₃N ₄The preparation method of composite photo-catalyst is characterized in that, at ZnO/g-C ₃N ₄The preparatory phase of photochemical catalyst adopts ultrasonic dispersion washing methods, is 6.8～7.2 with filter cake ultrasonic cleaning filtrate pH.

4. a kind of ZnO/g-C as claimed in claim 1 ₃N ₄The preparation method of composite photo-catalyst is characterized in that, described material quality is than being zinc acetate: ethanol: diethanol amine: protonated g-C ₃N ₄=1: (5.0～50.0): (10.0～50.0): (0.1～10.0).

5. a kind of ZnO/g-C as claimed in claim 1 ₃N ₄The ZnO/g-C of preparation method's preparation of composite photo-catalyst ₃N ₄Composite photo-catalyst is characterized in that, described ZnO/g-C ₃N ₄Photochemical catalyst has the porous ZnO nanocrystal, and granular size is 20～150nm.

6. a kind of ZnO/g-C as claimed in claim 1 ₃N ₄The preparation method of composite photo-catalyst is characterized in that, the time of mixing is 3～7h.

7. a kind of ZnO/g-C as claimed in claim 1 ₃N ₄The preparation method of composite photo-catalyst is characterized in that, roasting time is 3～7h.