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Modified carbon quantum dot supported hollow tubular carbon nitride photocatalyst and preparation method thereof

A technology of carbon quantum dots and carbon nitride, which is applied in the field of modified carbon quantum dot-loaded hollow tubular carbon nitride photocatalysts and its preparation, can solve the problem of affecting the photocatalytic performance of carbon nitride photocatalysts and limiting carbon nitride photocatalysts. Wide application, difficult to completely remove organic additives, etc., to achieve the effect of fast separation and migration rate of photogenerated carriers, good application value and application prospect, and fast separation and migration rate

Active Publication Date: 2020-06-12
HUNAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the existing carbon nitride photocatalysts with different morphologies still have disadvantages such as small specific surface area, few active sites, serious recombination of photogenerated carriers, poor light absorption ability, and low photocatalytic activity.
In addition, most of the existing carbon nitride photocatalyst preparation processes are template methods, and templates need to be removed during their synthesis, which is not conducive to improving the preparation efficiency, and leads to complex preparation processes, high preparation costs, and time-consuming At the same time, these synthesis processes require extensive use of various organic material additives or high-pressure conditions, where organic additives are usually difficult to completely remove, and their residual amount will not only affect the photocatalytic performance of carbon nitride photocatalysts, but these organic additives may also It has adverse effects on the environment, and the existence of these problems severely limits the wide application of carbon nitride photocatalysts.

Method used

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  • Modified carbon quantum dot supported hollow tubular carbon nitride photocatalyst and preparation method thereof
  • Modified carbon quantum dot supported hollow tubular carbon nitride photocatalyst and preparation method thereof
  • Modified carbon quantum dot supported hollow tubular carbon nitride photocatalyst and preparation method thereof

Examples

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Effect test

Embodiment 1

[0036] A modified carbon quantum dot-loaded hollow tubular carbon nitride photocatalyst uses hollow tubular carbon nitride as a carrier, and modified carbon quantum dots are loaded on the hollow tubular carbon nitride.

[0037] In this embodiment, the hollow tubular carbon nitride is prepared by using urea and melamine as raw materials through hydrothermal and calcination, wherein the molar ratio of urea and melamine is 3:1.

[0038] A method for preparing the modified carbon quantum dot-supported hollow tubular carbon nitride photocatalyst in the above-mentioned embodiment of the present invention, comprising the following steps:

[0039] Suspend 0.2g of hollow tubular carbon nitride in 30mL of ultrapure water, add 0.5mL of modified carbon quantum dot solution, mix well, and dry at 80°C to obtain a hollow tubular carbon nitride photocatalyst supported by modified carbon quantum dots , numbered HTCN-C0.5.

[0040] In this example, the hollow tubular carbon nitride used is pre...

Embodiment 2

[0048] A method for preparing a modified carbon quantum dot-supported hollow tubular carbon nitride photocatalyst is basically the same as that of the modified carbon quantum dot-supported hollow tubular carbon nitride photocatalyst in Example 1, the only difference being: Example 2 The volume of the modified carbon quantum dot solution is 1 mL.

[0049] The modified carbon quantum dot-loaded hollow tubular carbon nitride photocatalyst prepared in Example 2 is designated as HTCN-C1.

Embodiment 3

[0051] A method for preparing a modified carbon quantum dot-supported hollow tubular carbon nitride photocatalyst is basically the same as that of the modified carbon quantum dot-supported hollow tubular carbon nitride photocatalyst in Example 1, the only difference being: Example 3 The volume of the modified carbon quantum dot solution is 2mL.

[0052] The modified carbon quantum dot-loaded hollow tubular carbon nitride photocatalyst prepared in Example 3 is designated as HTCN-C2.

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Abstract

The invention discloses a modified carbon quantum dot-loaded hollow tubular carbon nitride photocatalyst and a preparation method thereof. The photocatalyst uses hollow tubular carbon nitride as a carrier, and is loaded with modified carbon quantum dots. The hollow tubular carbon nitride photocatalyst is Carbon nitride is prepared from urea and melamine with a molar ratio of 1 to 5:1 as raw materials through hydrothermal heating and calcination. The preparation method includes: mixing hollow tubular carbon nitride, water and modified carbon quantum dot solution, and drying to obtain the photocatalyst of the present invention. The photocatalyst of the present invention has strong advantages such as large specific surface area, large number of holes, many active sites, fast separation and migration rate of photogenerated carriers, strong light absorption ability, high photocatalytic activity, high stability and photocatalytic efficiency, and its preparation method It has the advantages of convenient synthesis, simple operation, and no secondary pollution to the environment. The photocatalyst of the present invention can be widely used to treat organic pollutants in the environment and kill harmful microorganisms in the environment, and has good application value and application prospects.

Description

technical field [0001] The invention belongs to the field of visible light catalysis, and relates to a hollow tubular carbon nitride photocatalyst supported by modified carbon quantum dots and a preparation method thereof. Background technique [0002] Graphite carbon nitride (g-C 3 N 4 ), as a conjugated polymer semiconductor, has attracted considerable attention recently because of its good physicochemical stability, attractive electronic structure and appropriate bandgap, i.e. 2.7eV, which is promising in catalysis and energy Good application prospects. However, it also has inherent problems such as small specific surface area, high exciton binding energy, and serious photogenerated electron-hole recombination, resulting in low photocatalytic efficiency, which seriously restricts its practical application and promotion in the field of energy and environmental photocatalysis. The nanostructure of photocatalysts is closely related to their physical and chemical propertie...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J27/24B01J35/00B01J35/02C02F1/30C02F101/34C02F101/36C02F101/38
CPCC02F1/30B01J27/24C02F2305/10C02F2101/38C02F2101/40C02F2101/36C02F2101/34B01J35/00B01J35/30B01J35/39
Inventor 汪文军曾光明张辰周成赟杨洋刘洋许飘熊炜平汤湘薛文静易欢雷蕾符玉葵罗晗倬
Owner HUNAN UNIV
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