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Method for controlling surface potentials of graphene-based material

A surface potential, graphene-based technology, applied in chemical instruments and methods, inorganic chemistry, non-metallic elements, etc., can solve cumbersome problems and achieve high reaction temperature, strong reduction, and strong oxidation

Active Publication Date: 2014-06-11
INST OF PROCESS ENG CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The technology of the present invention solves the problem: overcoming the performance prediction and design of existing graphene-based materials, which requires detailed analysis of the types and quantities of functional groups, which is too cumbersome, and provides a method for controlling the surface potential of graphene-based materials, which does not require precise Analyze the type and quantity of surface groups on the material, the operation is simple, the surface potential of graphene-based materials can be controlled, and graphene-based functional materials with different activities and uses can be prepared

Method used

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  • Method for controlling surface potentials of graphene-based material

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Experimental program
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Effect test

Embodiment 1

[0027] Press the graphite oxide powder into 0.5mg ml -1Disperse in ultrapure water, and ultrasonically treat in a water bath for 2 hours to obtain a graphene oxide dispersion. Add a certain amount of 80% hydrazine hydrate (mass ratio of graphite oxide to graphite is 1:1) into the above dispersion liquid, ultrasonically disperse in a water bath for 5 minutes, and mix well. The above mixed solution was put into a round bottom flask, kept at 35° C. in a water bath, and refluxed for 1 h under magnetic stirring. The product was separated by a high-speed centrifuge, washed several times with ultrapure water, centrifuged, and dried at 55°C. Disperse the resulting solid powder in ultrapure water at a concentration of 0.05 mg ml -1 , ultrasonically disperse in a water bath for 5 minutes, and adjust the pH to 7 with 0.1M hydrochloric acid and 0.1M ammonia water. The zeta potential test result is -55.8mV ( figure 1 in b). This graphene can be used to adsorb heavy metal cations or to...

Embodiment 2

[0029] Press the graphite oxide powder into 0.5mg ml -1 Disperse in ultrapure water, and ultrasonically treat in a water bath for 2 hours to obtain a graphene oxide dispersion. Add a certain amount of 80% hydrazine hydrate (mass ratio of graphite oxide to graphite is 1:1) into the above dispersion liquid, ultrasonically disperse in a water bath for 5 minutes, and mix well. The above mixed solution was put into a round bottom flask, kept at 65°C in a water bath, and refluxed for 12 hours under magnetic stirring. The product was separated by a high-speed centrifuge, washed several times with ultrapure water, centrifuged, and dried at 55°C. Disperse the resulting solid powder in ultrapure water at a concentration of 0.05 mg ml -1 , ultrasonically disperse in a water bath for 5 minutes, and adjust the pH to 7 with 0.1M hydrochloric acid and 0.1M ammonia water. The zeta potential test result is -34.8mV ( figure 1 in c). This graphene can be used to adsorb cations with a small ...

Embodiment 3

[0031] Press the graphite oxide powder into 1mg ml -1 Disperse in a solvent, and ultrasonically treat in a water bath for 2 hours to obtain a graphene oxide dispersion. Put a certain amount of 1mg ml -1 The p-phenylenediamine ethanol solution and the above dispersion liquid were mixed in equal volume, ultrasonically dispersed in a water bath for 30 minutes, and mixed evenly. The above mixed solution was put into a round bottom flask, kept at 45°C in a water bath, and refluxed for 12 hours under magnetic stirring. The product was separated with a high-speed centrifuge, washed with washing solution (a mixed solution of ultrapure water and ethanol at a volume ratio of 1:1), centrifuged, and dried at 55°C. Disperse the resulting solid powder in ultrapure water at a concentration of 0.05 mg ml -1 , ultrasonically disperse in a water bath for 30 minutes, and adjust the pH to 3.5 with 0.1M hydrochloric acid and 0.1M ammonia water. The zeta potential test result is 2.5mV ( figure...

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Abstract

The invention relates to a method for controlling surface potentials of a graphene-based material by treating the graphene-based material via a chemical reagent. The graphene-based material with the different surface potentials can be prepared by controlling the type, the dosage, the reaction time, the reaction temperature and the like of the chemical reagent. The method comprises the following steps: dispersing graphite oxide into a solvent and performing ultrasonic stripping so as to prepare a graphene oxide dispersion liquid; adding an oxidizing agent, a reducing agent or the chemical reagent having specific functional groups (comprising solution thereof); performing water-bath refluxing and controlling the reaction time and the reaction temperature under a condition of magnetic stirring; performing centrifugal washing and drying on a product; and dispersing the product in the certain solvent and regulating a pH value, thereby obtaining the graphene-based material dispersion liquid with the certain surface potentials. The method is simple to operate and low in cost, and is suitable for preparing a large quantity of graphene-based functional materials with different activities and different functions (the different surface potentials).

Description

field of invention [0001] The invention relates to the technical field of surface modification of graphene-based materials, in particular to a method for changing and controlling the surface potential of graphene-based materials by using chemical agents. Background technique [0002] Graphene is carbon atoms through sp 2 A carbon nanomaterial with a single-layer two-dimensional honeycomb lattice structure formed by hybridization. Its basic structural unit is the most stable benzene six-membered ring in organic materials. Its theoretical thickness is only 0.335nm, which is the thinnest known in nature. of a material. The unique atomic and electronic structure of graphene endows it with many peculiar and excellent mechanical, thermal and electrical properties. In addition, it also has phenomena such as anomalous quantum Hall effect, room temperature quantum Hall effect, room temperature ferromagnetism and exciton band gap. These unique structures and excellent properties en...

Claims

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Application Information

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IPC IPC(8): C01B31/04C01B32/194
Inventor 刘晨明李明杰曹宏斌张懿
Owner INST OF PROCESS ENG CHINESE ACAD OF SCI