Preparation method of graphene conductive agent

A technology of graphene and conductive agent, applied in circuits, electrical components, battery electrodes, etc., can solve the problems of reduced electrode capacity, high price, and difficult dispersion, and achieve the effects of increasing capacity, increasing cycle life, and reducing internal resistance of batteries

Pending Publication Date: 2019-08-23
JINAN DEV ZONE XINGHUO SCI & TECH RES INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Lithium-ion batteries in the prior art mainly use conductive graphite, acetylene black and carbon nanotubes as conductive agents. Acetylene black is a chain composed of spherical amorphous carbon particles. It is currently the most widely used conductive agent with low price. , but in order to achieve the purpose of enhancing the mutual contact between electrode active materials, the amount of addition required is large, resulting in a decrease in electrode capacity; carbon nanotubes are linear one-dimensional carbonaceous materials, compared with acetylene black, carbon Nanotubes have better electrical conductivity and less addition, but currently carbon nanotubes are expensive and have the disadvantage of being difficult to disperse when used as a conductive agent

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] A preparation method for graphene conductive agent, comprising the steps of:

[0016] (1) In parts by weight, weigh 18 parts of graphene, 30 parts of epoxy resin, 2 parts of carbon fiber, and 60 parts of ethanol for mixing, and ultrasonically disperse at 55°C for 10 minutes to obtain premix A; the ultrasonic frequency is 50KHz;

[0017] (2) In parts by weight, weigh 20 parts of silver, 30 parts of carbon nanotubes, 0.01 parts of polyoxyethylene alkylamine, 1 part of hypromellose, and 100 parts of deionized, mix them, and stir at 80 ° C 30min, to obtain premix B;

[0018] (3) Mix the premix A obtained in step (1) with the premix B obtained in step (2) according to the mass ratio of 8:10:2:4, add additives and polyacetylene, and carry out high pressure under the pressure of 21000PSI After dispersion treatment, the temperature was raised to 150° C., stirred for 3 hours, cooled and ground to a particle size of 10 nm to obtain a graphene conductive agent.

[0019] The auxi...

Embodiment 2

[0021] A preparation method for graphene conductive agent, comprising the steps of:

[0022] (1) In parts by weight, weigh 23 parts of graphene, 40 parts of epoxy resin, 6 parts of carbon fiber, and 100 parts of ethanol for mixing, and ultrasonically disperse at 65°C for 25 minutes to obtain premix A; the ultrasonic frequency is 65KHz;

[0023] (2) In parts by weight, weigh 35 parts of copper, 40 parts of carbon nanotubes, 0.5 parts of polyoxyethylene alkylamine, 10 parts of hypromellose, and 160 parts of deionization, mix them, and stir at 100 ° C 60min, to obtain premix B;

[0024] (3) According to the mass ratio of 8:10:2:4, stir and mix the premix A obtained in step (1) and the premix B obtained in step (2) and add additives and polystyrene, under the pressure of 21000PSI Perform high-pressure dispersion treatment, then raise the temperature to 200° C., stir for 6 hours, and grind to a particle size of 20 nm after cooling to obtain a graphene conductive agent.

[0025] T...

Embodiment 3

[0027] A preparation method for graphene conductive agent, comprising the steps of:

[0028] (1) In parts by weight, weigh 19 parts of graphene, 35 parts of epoxy resin, 4 parts of carbon fiber, and 80 parts of ethanol for mixing, and ultrasonically disperse at 58°C for 18 minutes to obtain premix A; the ultrasonic frequency is 55KHz;

[0029] (2) In parts by weight, 25 parts of silver-coated copper, 35 parts of carbon nanotubes, 0.2 parts of polyoxyethylene alkylamine, 4 parts of hypromellose, and 130 parts of deionized were weighed and mixed at 85 Stir at ℃ for 35 minutes to obtain premix B;

[0030] (3) According to the mass ratio of 8:10:2:4, stir and mix the premix A obtained in step (1) and the premix B obtained in step (2), add additives and polyaniline, and carry out high pressure under the pressure of 21000PSI After dispersion treatment, the temperature was raised to 180° C., stirred for 4 hours, cooled and ground to a particle size of 15 nm to obtain a graphene cond...

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Abstract

The invention relates to a conductive agent, in particular to a preparation method of a graphene conductive agent. The method comprises the following steps: (1) preparing a premix solution A; preparing a premix solution B; (3) stirring and mixing the pre-mixed solution A obtained at the step (1) and the pre-mixed solution B obtained in the step (2) according to a mass ratio of 8: 10: 2: 4, addingan auxiliary agent and a conductive polymer agent, carrying out high-pressure dispersion treatment under the pressure of 21000PSI, and then increasing the temperature to 150-200 DEG C, performing stirring for 3-6 hours, performing cooling, and grinding the mixture into particles with the particle size of 10-20 nm, and obtaining the graphene conductive agent. According to the preparation method ofthe graphene conductive agent, the excellent conductivity of graphene is utilized to increase the capacity of an electrode material, the internal resistance of a battery is reduced, and the cycle lifeof the battery is prolonged; the prepared graphene conductive agent is high in electron conduction capability and uniform in heat conduction, and has relatively high liquid absorption and retention capability when being doped into a lithium ion battery.

Description

technical field [0001] The invention relates to a conductive agent, in particular to a preparation method of a graphene conductive agent. Background technique [0002] As a new type of high-energy secondary power supply, lithium-ion secondary batteries have the advantages of large specific energy, stable discharge voltage, high voltage, good low-temperature performance, no pollution, superior safety performance, long storage and working life, and high utilization rate. [0003] Lithium-ion batteries in the prior art mainly use conductive graphite, acetylene black and carbon nanotubes as conductive agents. Acetylene black is a chain composed of spherical amorphous carbon particles. It is currently the most widely used conductive agent with low price. , but in order to achieve the purpose of enhancing the mutual contact between electrode active materials, the amount of addition required is large, resulting in a decrease in electrode capacity; carbon nanotubes are linear one-di...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/62
CPCH01M4/625Y02E60/10
Inventor 张成如
Owner JINAN DEV ZONE XINGHUO SCI & TECH RES INST
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