A kind of preparation method of concentrated graphene oxide solution and thermal conductive film

A graphene solution, graphene technology, applied in chemical instruments and methods, carbon compounds, inorganic chemistry, etc., can solve problems such as unfavorable scaled production, low thermal conductivity, weak heat conduction and heat dissipation, and shorten the drying time. , The preparation method is simple, and the effect of improving the thermal conductivity

Active Publication Date: 2021-08-06
严帆
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  • Application Information

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Problems solved by technology

The lateral thermal conductivity of this product is 600-1800W / mK, and the longitudinal thermal conductivity is about 3W / mK, but the preparation process is harsh and the cost is high, which is not conducive to large-scale production
[0007] Existing thermal conductive films are usually prepared by coating graphene oxide into a film, but since the concentration of graphene oxide aqueous solution is lower than 0.8%, it needs to consume a lot of energy to evaporate excess water during the film forming process, thereby The energy consumption of graphene film preparation is too high, and the lower concentration will also lead to thinner graphene film thickness, so that the heat conduction flux cannot meet the current 5G heat dissipation application
In addition, the high thermal conductivity of graphene is mainly reflected in the plane, but due to the low thermal conductivity perpendicular to the graphene plane, the overall thermal conductivity of graphene is weak.

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  • A kind of preparation method of concentrated graphene oxide solution and thermal conductive film
  • A kind of preparation method of concentrated graphene oxide solution and thermal conductive film
  • A kind of preparation method of concentrated graphene oxide solution and thermal conductive film

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[0028] Embodiments of the present invention provide a method for preparing a concentrated graphene oxide solution in a first aspect. The preparation method includes the following steps: S101, forming a negative charge on the surface of graphene oxide in the graphene oxide aqueous solution; S102, using a metal salt to have The negatively charged graphene oxide aqueous solution is colloidized to form a metal-doped graphene oxide colloid; S103, the metal-doped graphene oxide colloid is concentrated and separated to obtain a metal-doped graphene oxide aqueous solution, that is, concentrated graphene oxide solution.

[0029] The embodiment of the present invention does not limit the specific implementation methods of the three processes of negative charge formation, colloidization, and concentration and separation, as long as a concentrated graphene oxide solution can be obtained.

[0030] In the embodiment of the present invention, negative charges are first formed on the surface ...

Embodiment 1

[0050] The preparation method of the concentrated graphene oxide solution is as follows: adopting a power of 350W and an ultraviolet lamp with an ultraviolet wavelength of 280-380nm to irradiate the graphene oxide aqueous solution with a mass concentration of 1% for 5 minutes, so that a large amount of negative charges are generated on the surface of the graphene oxide, A graphene oxide aqueous solution with a negative charge is obtained. Add ferric nitrate in the graphene oxide aqueous solution with negative charge, stir 10min with the speed of 600r / min, make the iron ion in the system and graphene oxide surface negative charge fully combine, generate the graphene oxide colloid of iron doping; Wherein , the mass ratio of ferric nitrate to graphene oxide is 1:10000. The iron-doped graphene oxide colloid was crystallized at a low temperature of -10°C for 12 hours, and the ice crystals were eliminated after natural heating at room temperature to generate a mixed solution; the mi...

Embodiment 2

[0054] The preparation method of the concentrated graphene oxide solution is as follows: adopting a power of 350W and an ultraviolet lamp with an ultraviolet wavelength of 280-380nm to irradiate the graphene oxide aqueous solution with a mass concentration of 1% for 15 minutes, so that a large amount of negative charges are generated on the surface of the graphene oxide, A graphene oxide aqueous solution with a negative charge is obtained. Add copper nitrate to the graphene oxide aqueous solution with negative charge, stir 30min with the speed of 600r / min, make the copper ion in the system and graphene oxide surface negative charge fully combine, generate the graphene oxide colloid of copper doping; Wherein , the mass ratio of copper nitrate to graphene oxide is 3:10000. The copper-doped graphene oxide colloid was crystallized at a low temperature of -12°C for 15 hours, and the ice crystals were eliminated after natural heating at room temperature to form a mixed solution; the...

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Abstract

The invention discloses a method for preparing a concentrated graphene oxide solution and a heat conduction film. A specific embodiment of the preparation method of the concentrated graphene oxide solution includes: forming a negative charge on the surface of graphene oxide in the graphene oxide aqueous solution; utilizing a metal salt to colloidize the negatively charged graphene oxide aqueous solution to form a metal-doped oxide Graphene colloid: the metal-doped graphene oxide colloid is concentrated and separated to obtain a metal-doped graphene oxide aqueous solution, that is, a concentrated graphene oxide solution. This embodiment embodiment of the present invention increases the concentration of graphene oxide by preparing a metal-doped graphene oxide aqueous solution; it overcomes the problem that the concentration of graphene oxide in the prior art is low and difficult to increase. Using concentrated graphene oxide solution to prepare thermally conductive film can not only reduce the energy consumption of water treatment in later stage, but also can greatly improve the longitudinal thermal conductivity of thermally conductive film, so as to obtain thermally conductive film with high thermal conductivity.

Description

technical field [0001] The invention relates to the technical field of material preparation, in particular to a method for preparing a concentrated graphene oxide solution and a heat conduction film. Background technique [0002] In solid materials, phonons and electrons are the key pathways for heat transfer. The thermal conductivity of metals mainly depends on the high-concentration electron transfer process, and among all metals, metallic silver has the highest thermal conductivity (K=429W / mK), but this thermal conductivity is still not ideal in practical applications. The thermal conductivity of non-metals mainly depends on the propagation rate of phonons. The thermal conductivity of different elements is quite different, and the thermal conductivity of the same element is also different due to the different lattice arrangement. For example, diamond and graphite, so how to get from non-metallic materials It is still a big challenge to obtain thermally conductive materia...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01B32/194C01B32/198C04B35/524
CPCC04B35/522C04B35/524C04B2235/9607C01B32/194C01B32/198
Inventor 尤勇张慧涛郭玉芬刘兆平
Owner 严帆
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