Preparation method of nitrogen-doped reducing graphene oxide aerogel

A graphene airgel and nitrogen-doped technology, applied in the direction of graphene, nano-carbon, etc., can solve problems such as difficult promotion and environmental pollution, and achieve industrialization, improve mechanical strength and stability, and be easy to control Effect

Inactive Publication Date: 2014-01-08
SOUTHEAST UNIV
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  • Abstract
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Problems solved by technology

However, the existing preparation methods use gas (such as ammonia) or liquid (such as ammonia water, ethylenediamine, etc.) as the nitrogen

Method used

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  • Preparation method of nitrogen-doped reducing graphene oxide aerogel
  • Preparation method of nitrogen-doped reducing graphene oxide aerogel
  • Preparation method of nitrogen-doped reducing graphene oxide aerogel

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Embodiment Construction

[0025] In the present invention, the design uses ordinary natural graphite powder as the carbon source, utilizes the improved Hummers method to prepare graphite oxide, and obtains single-layer or few-layer graphene oxide hydrosol in deionized water by ultrasonic exfoliation; then, in graphene oxide water Hexamethylenetetramine crystals are added to the sol to form a mixed solution, and the mixed solution is heated to 70-90°C under the condition of electromagnetic stirring in a fume hood for 2-4 hours, and then cooled naturally at room temperature to obtain nitrogen Doped reduced graphene oxide hydrosol mixture. Finally, the obtained nitrogen-doped reduced graphene oxide hydrosol mixture was left to stand for several hours until it was divided into upper and lower layers, the upper part was an aqueous solution, and the lower part was concentrated nitrogen-doped reduced graphene oxide hydrogel, used to The hydrogel was washed several times with ionic water, and then freeze-dried...

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Abstract

The invention discloses a preparation method of nitrogen-doped reducing graphene oxide aerogel. The method takes common natural graphite powder as a carbon source and comprises the steps of preparing graphite oxide, and performing ultrasonic stripping in deionized water to obtain graphene oxide hydrosol; adding a hexamethylenetetramine crystal into the graphene oxide hydrosol to form mixed liquid; heating the mixed liquid to 70-90 DEG C for 2-4 hours under an electromagnetic stirring condition in a fume cupboard to obtain the mixed liquid of nitrogen-doped reducing graphene oxide aerogel; standing the obtained mixed liquid of nitrogen-doped reducing graphene oxide aerogel for several hours; washing the mixed liquid of hydrogel by use of deionized water for several times; then performing freeze drying or supercritical drying to obtain foamed nitrogen-doped reducing graphene oxide aerogel. By adopting the method disclosed by the invention, the prepared aerogel has a relatively large specific surface area as well as a three-dimensional structure; with an excellent adsorption property, the aerogel can become an ideal water quality purifier, a catalyst carrier and an efficient composite material.

Description

technical field [0001] The design of the present invention utilizes the improved Hummers method to prepare graphite oxide, and ultrasonically exfoliates in deionized water to obtain a single-layer or few-layer graphene oxide hydrosol; then, hexamethylenetetramine crystals are added to the graphene oxide hydrosol to form Hydrosol mixture, the mixture is heated to 70-90°C under electromagnetic stirring in a fume hood for 2-4 hours, and then cooled naturally at room temperature to obtain a nitrogen-doped reduced graphene oxide hydrosol mixture liquid. Finally, the obtained nitrogen-doped reduced graphene oxide hydrosol mixture was left to stand for several hours until it was divided into upper and lower layers, the upper layer was an aqueous solution, and the lower layer was a concentrated hydrogel, and the concentrated water was washed with deionized water. After several times of gelation, after freeze-drying or supercritical drying, a foamy nitrogen-doped reduced graphene oxid...

Claims

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Application Information

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IPC IPC(8): C01B31/04C01B32/184
Inventor 徐春祥田正山理记涛朱刚毅石增良林毅
Owner SOUTHEAST UNIV
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