Bismuth oxybromide/silver silicate composite photocatalytic material and application

A composite photocatalysis and bismuth oxybromide technology, which is applied in the direction of physical/chemical process catalyst, chemical/physical process, special compound water treatment, etc. Using visible light and other problems to achieve significant degradation performance, high solar conversion efficiency, and easy promotion and application

Inactive Publication Date: 2018-10-19
CHINA UNIV OF GEOSCIENCES (BEIJING)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the current research on photocatalytic materials still faces three important problems that limit their practical applications.
[0003] First, the photoresponse range is narrow, and traditional semiconductor photocatalytic materials with high activity, such as titanium dioxide, have a wide energy band (3.2eV) and can only absorb ultraviolet light, which accounts for about 4% of the total energy of the solar spectrum, and cannot utilize solar energy. Most of the visible light, resulting in low solar energy efficiency
[0004] Second, the quantum efficiency is low. The photogenerated electrons and holes generated by the semiconductor under light recombine rapidly inside or on the surface of the semiconductor, which cannot effectively participate in the photocatalytic process, which greatly reduces the quantum efficiency of the photocatalytic reaction.
[0005] Third, nano-scale catalytic materials have better photocatalytic performance, but may cause secondary pollution during the reaction process

Method used

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  • Bismuth oxybromide/silver silicate composite photocatalytic material and application
  • Bismuth oxybromide/silver silicate composite photocatalytic material and application
  • Bismuth oxybromide/silver silicate composite photocatalytic material and application

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Bismuth oxybromide / silver silicate (BiOBr / Ag 6 Si 2 o 7 ) Composite photocatalytic material, made through the following steps:

[0038] S1: Preparation of bismuth oxybromide photocatalytic material

[0039] Dissolve 0.7275g of bismuth nitrate pentahydrate in 40ml of ethylene glycol, stir well until it is completely dissolved, then add 0.1900g of potassium bromide, continue stirring until the solution is clear, then add 20ml of deionized water under magnetic stirring conditions, and continue stirring for 60min , centrifuged, and the obtained solid was washed 5 times with absolute ethanol and deionized water successively, and the obtained white solid was dried in an oven at 60° C. for 12 hours to obtain a bismuth oxybromide photocatalytic material;

[0040] S2: Synthesis of bismuth oxybromide / silver silicate composite photocatalytic material

[0041] 0.1698g of silver nitrate was ultrasonically dispersed in 30ml of deionized water to obtain solution A;

[0042] 0.152...

Embodiment 2

[0050] Bismuth oxybromide / silver silicate composite photocatalytic material is prepared through the following steps:

[0051] S1: Preparation of bismuth oxybromide photocatalytic material

[0052] Dissolve 0.970g of bismuth nitrate pentahydrate in 40ml of ethylene glycol, stir well until it is completely dissolved, then add 0.2500g of potassium bromide, continue stirring until the solution is clear, add 20ml of deionized water under magnetic stirring conditions, and continue stirring for 60min, Centrifuge, wash with absolute ethanol and deionized water for 6 times, and dry the resulting white solid at 60°C for 12 hours to obtain a bismuth oxybromide photocatalytic material;

[0053] S2: Synthesis of bismuth oxybromide / silver silicate composite photocatalytic material

[0054] 0.3397g of silver nitrate was ultrasonically dispersed in 60ml of deionized water to obtain solution A;

[0055] 0.3040g of bismuth oxybromide was ultrasonically dispersed in 40ml of deionized water to ...

Embodiment 3

[0061] Bismuth oxybromide / silver silicate composite photocatalytic material is prepared through the following steps:

[0062] S1: Preparation of bismuth oxybromide photocatalytic material

[0063] Dissolve 0.4850g of bismuth nitrate pentahydrate in 40ml of ethylene glycol, stir well until it is completely dissolved, then add 0.1500g of potassium bromide, continue stirring until the solution is clear, add 20ml of deionized water under magnetic stirring conditions, and continue stirring for 60min, Centrifuge, wash the obtained solid with absolute ethanol and deionized water 6 times respectively, and dry the obtained white solid at 60° C. for 12 hours to obtain a bismuth oxybromide photocatalytic material;

[0064] S2: Synthesis of bismuth oxybromide / silver silicate composite photocatalytic material

[0065] 0.1698g of silver nitrate was ultrasonically dispersed in 30ml of deionized water to obtain solution A;

[0066] 0.1520g of bismuth oxybromide was ultrasonically dispersed ...

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Abstract

The invention discloses a bismuth oxybromide / silver silicate composite photocatalytic material and application. The composite photocatalytic material is of a composite structure of n-type silver silicate supported on the surface of a p-type bismuth oxybromide substrate, and is prepared by a simple precipitation method. The novel photocatalytic material is relatively high in photocatalytic activityand photocatalytic efficiency. Experiments show that the degradation properties of the photocatalytic composite material to organic matters are significant. In the irradiation of visible light, the composite photocatalytic material can be applied to the degradation of the organic matters in organic waste water, such as the treatment of the organic waste water containing phenol, methyl orange, rhodamine B and other organic pollutants.

Description

technical field [0001] The invention belongs to the technical field of environmental chemical photocatalytic water treatment, and in particular relates to a bismuth oxybromide / silver silicate composite photocatalytic material and its application. Background technique [0002] At present, energy shortage and environmental pollution worldwide are two major threats to the sustainable development of human society. Finding sustainable and clean energy alternatives to fossil fuels is key to addressing both threats. The newly developed semiconductor photocatalyst technology can use sunlight as energy to split water, generate clean energy hydrogen and oxygen, and can also degrade and remove organic pollutants and inorganic heavy metals. However, the current research on photocatalytic materials still faces three important problems that limit their practical applications. [0003] First, the photoresponse range is narrow, and traditional semiconductor photocatalytic materials with h...

Claims

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Application Information

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IPC IPC(8): B01J27/06C02F1/30C02F101/30
CPCC02F1/30B01J27/06C02F2305/10C02F2101/30B01J35/39
Inventor 陈男秦纪波冯传平
Owner CHINA UNIV OF GEOSCIENCES (BEIJING)
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