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Preparation method and application of coconut shell charcoal/three-dimensional graphene composite material

A technology of composite materials and graphene, which is applied in the field of composite materials and can solve problems such as easy cracking of three-dimensional graphene

Pending Publication Date: 2020-10-30
SHENZHEN KUANG CHI GANG DA INNOVATIVE TECH LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The present invention prepares the three-dimensional porous activated carbon fiber framework in advance, and then reacts the composite solution containing graphene oxide in the three-dimensional porous activated carbon fiber framework, thereby preparing a large-scale coconut shell carbon / three-dimensional graphene composite material, which solves the problem of three-dimensional graphene In the problem of easy cracking in the preparation process, the interface strength between coconut shell carbon and three-dimensional graphene can be further enhanced by high-temperature sintering, so that the coconut shell carbon / three-dimensional graphene composite material in the present invention has better mechanical properties and electromagnetic wave absorption properties.

Method used

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  • Preparation method and application of coconut shell charcoal/three-dimensional graphene composite material
  • Preparation method and application of coconut shell charcoal/three-dimensional graphene composite material

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Effect test

Embodiment 1

[0026] S1 flattens the coconut shell in advance, washes and dries it and soaks it in sodium hydroxide solution for 24 hours. The molar concentration of the sodium hydroxide solution is 0.02mol / L to obtain a three-dimensional coconut shell fiber skeleton structure; Carbonization under an inert atmosphere, the carbonized three-dimensional coconut shell fiber skeleton is intruded into sodium hydroxide, the molar concentration of sodium hydroxide is 10mol / L, and under high pressure, the strong alkali solution is fully pressed into the coconut shell fiber skeleton for expansion. Pore ​​and activation treatment to obtain a three-dimensional porous activated carbon fiber skeleton, the pore diameter of the obtained three-dimensional porous activated carbon fiber skeleton is 50um. S3 adopts Humers method to prepare graphene oxide dispersion liquid, the concentration of gained graphene oxide is 1mg / ml, the D50 of graphene oxide in described graphene oxide solution90%, toward oxidation T...

Embodiment 2

[0029]S1 flatten the coconut shell in advance, wash and dry it, soak it in phosphoric acid solution for 48 hours, the molar concentration of phosphoric acid solution is 10mol / L, and obtain the three-dimensional coconut shell fiber skeleton structure; S2 carbonize the three-dimensional coconut shell fiber skeleton under an inert atmosphere, Invade the carbonized three-dimensional coconut shell fiber skeleton into hydrochloric acid, the molar concentration of hydrochloric acid is 1mol / L, under the action of high pressure, fully press the hydrochloric acid solution into the coconut shell fiber skeleton, and carry out hole expansion and activation treatment under the action of high pressure steam A three-dimensional porous activated carbon fiber skeleton is obtained, and the pore diameter of the obtained three-dimensional porous activated carbon fiber skeleton is 100 um. S3 adopts humers method to prepare graphene oxide dispersion liquid, the concentration of gained graphene oxide ...

Embodiment 3

[0031] S1 flatten the coconut shell in advance, wash and dry it, soak it in ammonia solution for 48 hours, the molar concentration of ammonia solution is 10mol / L, and obtain the three-dimensional coconut shell fiber skeleton structure; S2 carbonize the three-dimensional coconut shell fiber skeleton under an inert atmosphere, Invade the carbonized three-dimensional coconut shell fiber skeleton into the sodium hydroxide solution, the molar concentration of sodium hydroxide is 5mol / L, under the action of high pressure, fully press the hydrochloric acid solution into the coconut shell fiber skeleton, and carry out the process under the action of high pressure steam The three-dimensional porous activated carbon fiber skeleton is obtained through hole expansion and activation treatment, and the pore diameter of the obtained three-dimensional porous activated carbon fiber skeleton is 10 μm. S3 adopts Humers method to prepare graphene oxide dispersion liquid, the concentration of gaine...

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Abstract

The invention provides a preparation method of a coconut shell charcoal / three-dimensional graphene composite material. The preparation method comprises the following steps: S1, pretreating coconut shells to obtain a three-dimensional coconut shell fiber skeleton; S2, carbonizing the three-dimensional coconut fiber skeleton in an inert atmosphere, and then performing broaching and activating treatment to obtain a three-dimensional porous activated carbon fiber skeleton; S3, preparing a graphene oxide dispersion liquid, and adding functional components into the graphene oxide dispersion liquid to obtain a composite solution; S4, reacting the activated carbon fiber skeleton with the composite solution at high temperature and high pressure for 0.5-24 hours, and cleaning and drying after the reaction is finished; and S5, sintering the sample obtained in the step S4 in an inert atmosphere to obtain the coconut shell charcoal / three-dimensional graphene composite material. According to the preparation method of the coconut shell charcoal / three-dimensional graphene composite material, the problem that three-dimensional graphene is easy to crack in the preparation process is solved, and theobtained coconut shell charcoal / three-dimensional graphene composite material has better mechanical properties and electromagnetic wave absorption performance.

Description

【Technical field】 [0001] The invention relates to the field of composite materials, in particular to a preparation method and application of a coconut shell carbon / three-dimensional graphene composite material. 【Background technique】 [0002] Graphene has remarkable characteristics such as high temperature resistance, good flexibility, light weight, wide wave-absorbing frequency band, high thermal conductivity, and porosity. It has been widely used in energy, electronics, electric power, heat conduction, communication and other fields. The application research of graphene is a hot spot nowadays. In the prior art, the use of graphene in electromagnetic wave absorption or stealth structural parts is mainly prepared by blending graphene, wave absorbing agent and matrix resin into wave absorbing composite materials. [0003] Three-dimensional graphene has many advantages of graphene, but its mechanical properties are poor, and the three-dimensional graphene prepared by the prior...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B32/348C01B32/342C01B32/336C01B32/324C01B32/184H05K9/00
CPCC01B32/348C01B32/342C01B32/336C01B32/324C01B32/184H05K9/0081
Inventor 刘若鹏赵治亚李妤婕王太保
Owner SHENZHEN KUANG CHI GANG DA INNOVATIVE TECH LTD
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