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A kind of carbon sphere-carbon nitride nanometer material and its preparation and application

A technology of nanomaterials and carbon nitride, which is applied in the field of environmental catalysis and nanomaterials, can solve the problems of narrow-band semiconductors prone to photocorrosion, unstable photosensitization of organic dyes, and low absorption coefficient, so as to improve the efficiency of light energy utilization and absorb The effect of improved utilization and low cost of raw materials

Active Publication Date: 2020-05-29
ZHEJIANG GONGSHANG UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Currently on C 3 N 4 The modification methods mainly focus on the following three aspects: noble metal compounding, non-metal element doping and surface photosensitization, but the cost of noble metal compounding is high, and non-metal doped C 3 N 4 In the visible region, the absorption coefficient is low, the photosensitization of organic dyes is unstable, and the photosensitization of narrow-band semiconductors is prone to photocorrosion. Therefore, it is urgent to develop a stable, low-cost, and effective modification method that can be mass-produced to improve C 3 N 4 Photocatalytic efficiency

Method used

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  • A kind of carbon sphere-carbon nitride nanometer material and its preparation and application
  • A kind of carbon sphere-carbon nitride nanometer material and its preparation and application
  • A kind of carbon sphere-carbon nitride nanometer material and its preparation and application

Examples

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Embodiment 1

[0059] (1) Weigh 20 g of urea, place it in an alumina crucible, and cover it for calcination in an air atmosphere. Raise the temperature from room temperature to 550 °C at a heating rate of 4 °C / min, maintain at 550 °C for 2 hours, and cool down to room temperature naturally.

[0060] (2) Grinding and dissolving the cooled sample in 100 ml of water, and putting it into an ultrasonic pool for 12 hours of ultrasonication.

[0061] (3) Place the sample in a centrifuge with a rotating speed of 10000r / min, centrifuge for 5 minutes, and separate the supernatant.

[0062] (4) Repeat this step until the supernatant appears colorless (or slightly yellow), and repeat the centrifugation for a total of 4 times in this experiment.

[0063] (5) Preserve the precipitate for later use, freeze-dry for 13 hours to obtain sample C3N4.

[0064] (6) Dissolve 2g of C3N4 in 10ml of ethylenediamine, mix and stir evenly, and number it as solution 1.

[0065] (7) Dissolve 50mg of citric acid in 2ml ...

Embodiment 2

[0079] Slowly add 0.05g of glucose into 2ml of ethylene glycol solution, stir at room temperature and ultrasonically make it fully mixed; 3 N 4 Slowly add 10ml of ethylene glycol, stir at room temperature and sonicate to make it evenly mixed. The two mixed solutions were stirred at room temperature to fully mix to form a homogeneous solution. Add the mixed solution into a hydrothermal kettle, heat it to 200°C for 30min, and keep it at 200°C for 24h. After the reaction is completed, cool, centrifuge, and dry to obtain a powder sample.

[0080] figure 1 Pure C prepared for Example 1 3 N 4 and carbon sphere-C 3 N 4 The X-ray powder diffraction pattern; due to the carbon sphere loading in C 3 N 4 Surface, carbon sphere modified C 3 N 4 Due to the low carbon sphere content and high dispersion, no diffraction peak changes can be seen, indicating that the introduction of carbon photons will not change the C 3 N 4 chemical structure.

[0081] figure 2 Pure C prepared for...

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Abstract

The invention discloses a carbon sphere-carbon nitride nanomaterial and its preparation and application. The sphere is loaded in situ on C 3 N 4 On the surface, a composite two-dimensional layered structure is formed, with carbon spheres and C 3 N 4 The molar ratio is 0.025~0.1, and the preparation method is as follows: (1) Add C 3 N 4 Dissolve in an organic solvent and mix uniformly to obtain solution A; Dissolve citric acid or glucose in the same organic solvent and mix uniformly to obtain solution B; (2) Fully mix solution A and solution B to form a homogeneous solution for hydrothermal reaction, After the hydrothermal reaction is completed, the precipitate is collected by centrifugation and freeze-dried to obtain C loaded with carbon spheres in situ. 3 N 4 Material. The carbon sphere-carbon nitride nanomaterial of the present invention is used for CO 2 photocatalytic reduction.

Description

technical field [0001] The invention relates to a carbon sphere (carbon sphere) in-situ loaded C 3 N 4 The invention relates to a new type of organic semiconductor material, specifically relates to the preparation and application of this new type of nanometer material, and belongs to the field of environmental catalysis and nanometer material technology. Background technique [0002] Currently, photocatalytic materials produce hydrogen by decomposing water and reducing CO by light. 2 The formation of C-H fuels and other pathways can directly convert solar energy into chemical energy. Due to its convenience, cleanliness, and continuous generation of renewable and "carbon neutral" fuels, it is considered to be one of the best ways to convert and utilize solar energy in the future. , has attracted the attention of countless scientists all over the world and has been widely studied. Among them, C 3 N 4 As a new type of cheap, non-toxic and stable photocatalytic material, wh...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J27/24B01J35/02B01J37/10C10G2/00B01J35/00
CPCC10G2/00B01J27/24B01J37/10B01J35/39B01J35/40Y02P30/40
Inventor 徐颖峰郭乔琪冯华军沈东升黄晶晶陈书鑫汤晨怡
Owner ZHEJIANG GONGSHANG UNIVERSITY