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A preparation method of biobr/rgo nanocomposite and its application in the degradation reaction of rhodamine

A technology of nanocomposite materials and composite materials, which is applied in the field of photocatalysts, can solve the problems of different preparation methods, and achieve the effects of low preparation temperature, simple preparation method and high catalytic efficiency

Active Publication Date: 2016-08-17
ANHUI UNIVERSITY OF TECHNOLOGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although they all have prepared BiOBr / RGO nanocomposites, the present invention is quite different from the BiOBr / RGO nanocomposites prepared by them in appearance. In addition, the preparation methods are also different. Liu et al. adopt the hydrothermal method , W. Zhang et al. used the in-situ precipitation method, S. Song et al. used the microwave method, and the preparation of BiOBr / RGO nanocomposites by the emulsion method has not been reported.

Method used

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  • A preparation method of biobr/rgo nanocomposite and its application in the degradation reaction of rhodamine
  • A preparation method of biobr/rgo nanocomposite and its application in the degradation reaction of rhodamine
  • A preparation method of biobr/rgo nanocomposite and its application in the degradation reaction of rhodamine

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] The specific preparation steps of 1#BiOBr / RGO nanocomposite are as follows:

[0035] (1) Preparation of GO

[0036] 0.5g graphite powder and 1.5g KMnO 4 Add it into a round-bottomed flask containing 12 mL of concentrated sulfuric acid, stir magnetically for 4 h under ice-water bath conditions, heat to 35 ° C, stir at constant temperature for 30 min, add 23 mL of distilled water dropwise, raise the temperature to 98 ° C, stir for 15 min, and transfer the mixture to ice In a water bath, add 70 mL of distilled water to dilute, then add 10 mL of 30% hydrogen peroxide, stir for 30 min, the solution turns yellow, centrifuge, wash thoroughly until the supernatant pH = 7, and dry the lower precipitate to obtain GO.

[0037] (2) Preparation of BiOBr / RGO nanocomposites

[0038] Measure 20 mL of toluene into a round bottom flask, stir at 60 °C for 30 min, add 50 mg of CTAB and 0.4 mL of OA, continue stirring until the two are completely dissolved, then add 3 mg of GO prepared ab...

Embodiment 2

[0040] The specific preparation steps of 2#BiOBr / RGO nanocomposite are as follows:

[0041] (1) Preparation of GO

[0042] Same as the preparation method of GO in Example 1.

[0043] (2) Preparation of BiOBr / RGO nanocomposites

[0044] Measure 20 mL of toluene into a round bottom flask, stir at 60 °C for 30 min, add 73 mg of CTAB and 0.4 mL of OA, continue stirring until the two are completely dissolved, then add 3 mg of GO prepared above, stir for 2 h to completely disperse, and the suspension The solution is called A. In addition, measure 190mL H at room temperature 2 O, add 10 mL of 65% HNO 3 , weighed 1.96g Bi(NO 3 ) 3 ·5H 2 O, stirred with a glass rod to dissolve completely, called solution B. Measure 1.0 mL of solution B and drop it into the suspension A under stirring, continue to stir for 12 hours, raise the temperature to 85°C for reflux, and keep it at 85°C for 12 hours, and the reaction ends. The reactants were cooled to room temperature, centrifuged, washe...

Embodiment 3

[0046] The specific preparation steps of 3#BiOBr / RGO nanocomposite are as follows:

[0047] (1) Preparation of GO

[0048]Same as the preparation method of GO in Example 1.

[0049] (2) Preparation of BiOBr / RGO nanocomposites

[0050] Measure 20 mL of toluene into a round-bottomed flask, stir at 60 °C for 30 min, add 90 mg of CTAB and 0.4 mL of OA, continue stirring until the two are completely dissolved, then add 3 mg of GO prepared above, and stir for 2 h to completely disperse it. The suspension is called A. In addition, measure 190mL H at room temperature 2 O, add 10 mL of 65% HNO 3 , weighed 1.96g Bi(NO 3 ) 3 ·5H 2 O, stirred with a glass rod to dissolve completely, called solution B. Measure 1.0 mL of solution B and drop it into the suspension A under stirring, continue to stir for 12 hours, raise the temperature to 85°C for reflux, and keep it at 85°C for 12 hours, and the reaction ends. The reactants were cooled to room temperature, centrifuged, washed, and dr...

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Abstract

The present invention discloses a BiOBr / RGO nanocomposite preparation method and application, it belongs to the field of optical catalyst. The active component of the composite is BiOBr / RGO, characterized by a flower-like layered RGO BiOBr intertwined to form a unique three-dimensional structure, which is prepared: weighed amount of toluene, cetyltrimethylammonium bromide and oleic acid, stirring the thermostat, the graphene oxide was added to obtain a solution A; re-weighed amount of H2O, HNO3 and added Bi (NO3) 3 · 5H2O, to obtain a solution B; and the solution B under stirring solution A was added dropwise, the temperature was raised to 85 ℃ 12h reflux; then cooled, washed, and dried to obtain the desired product. BiOBr present invention is prepared / RGO nanocomposite can be used as a reaction catalyst for the degradation of rhodamine light, it has good catalytic effect and stability.

Description

technical field [0001] The invention belongs to the field of photocatalysts, in particular to a preparation technology of a photocatalyst BiOBr / RGO nanocomposite material containing reduced graphene (RGO), in particular to a flower-shaped BiOBr / RGO nanocomposite with controllable morphology and composition Material preparation techniques. The prepared BiOBr / RGO nanocomposite material in the invention is a photocatalyst, which has a good catalytic effect when used for photodegradation of rhodamine. Background technique [0002] Multi-component hybrid materials with controllable morphology and composition have great potential application value in the fields of catalysis, solar energy conversion and photoelectric technology (P.Li, et al.Au-ZnO Hybrid Nanopyramids and Their Photocatalytic Properties, J. Am.Chem.Soc.2011,133,5660-5663; T.Yu, et al.AqueousPhase Synthesis of Pt / CeO 2 Hybrid Nanostructures and Their Catalytic Properties, Adv. Mater. 2010, 22, 5188-5192.). RGO is ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J27/06B01J35/02B82Y40/00C02F1/30C02F1/58B01J35/00
Inventor 陈国昌汪丹丹乔红斌裘小宁蒋伟峰吴胜华
Owner ANHUI UNIVERSITY OF TECHNOLOGY