Silicon-carbon composite negative electrode material for lithium ion battery and preparation method thereof

A silicon-carbon composite and negative electrode material technology, which is applied in battery electrodes, nanotechnology for materials and surface science, circuits, etc., can solve problems such as increased defects, uncontrollable enrichment uniformity, and decreased first Coulomb efficiency of materials.

Active Publication Date: 2013-12-25
BTR NEW MATERIAL GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this method uses ultrasonic dispersion to disperse nano-silicon powder in the expanded graphite layer. It is difficult for nano-silicon to be completely inserted into the graphite layer. After suction filtration and drying, a large amount of nano-silicon powder will be enriched on the surface, and the enrichment uniformity out of control
During the charge-discharge cycle of the prepared material, the nano-silicon-enriched region will still pulverize rapidly with the charge-discharge process, and the capacity will decay.
At the same time, the intercalation of nano-silica powder in the expanded graphite layer will also cause the layered structure of graphite to be damaged to a certain extent, and the internal defects of the material will increase, resulting in a decrease in the first Coulombic efficiency of the material.

Method used

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  • Silicon-carbon composite negative electrode material for lithium ion battery and preparation method thereof
  • Silicon-carbon composite negative electrode material for lithium ion battery and preparation method thereof
  • Silicon-carbon composite negative electrode material for lithium ion battery and preparation method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0056] Disperse nano silicon powder and natural graphite with a mass ratio of 20:100 in ethanol, control the solid content to 15%, frequency 25KHz, power 1200W / cm 2 , sonicated for 30 min, stirred and dispersed at a speed of 900 rpm for 1.5 h, spray-dried and granulated to obtain nano-silicon / graphite composite particles.

[0057] Put the nano-silicon-graphite composite particles and the catalyst precursor into the organic solvent at a mass ratio of 95:5, control the solid content to 30%, and stir at a speed of 1800rpm until dry. Put the dried product in a rotary furnace, feed argon with a flow rate of 4L / min, raise the temperature to 650°C at 5°C / min, then feed methane with a flow rate of 2.5L / min, deposit for 2h, and cool down to room temperature to obtain Silicon / graphite composites;

[0058] Disperse the silicon / graphite composite material and asphalt in ethanol at a mass ratio of 85:15, control the solid content at 15%, stir and disperse at a speed of 1000rpm for 1h, dry...

Embodiment 2

[0061] Compared with Example 1, except that the graphite is artificial graphite, the silicon-carbon composite material was prepared under the same process conditions.

Embodiment 3

[0063] Compared with Example 1, except that the CVD temperature was changed from 650°C to 750°C, the silicon-carbon composite material was prepared under the same process conditions.

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Abstract

The invention relates to a silicon-carbon composite negative electrode material and a preparation method thereof. The silicon-carbon composite negative electrode material successively comprises nano silicon / graphite particles, a first carbon coating layer and an organic cracking carbon layer from inside to outside. The nano silicon / graphite particles are globular or globular-like composite particles formed by employing graphite as an inner core of a volume expansion buffer substrate and coating a nano silicon particle layer; the first carbon coating layer comprises carbon nanotubes and / or amorphous carbon, the carbon nanotubes and / or amorphous carbon are interspersed in a gap network formed by gaps of the nano silicon particles and / or are coated outside the nano silicon particle layer, so that the nano silicon is tightly wrapped between the carbon nanotubes and / or between the carbon nanotubes and the graphite substrate, and besides, the material ion conductivity is effectively enhanced; the organic cracking carbon layer is an outermost coating layer of the silicon-carbon composite negative electrode material. The silicon-carbon composite negative electrode material has excellent cycle performance, excellent multiplying power charging and discharging performance and lower volume expansion effect.

Description

technical field [0001] The invention relates to the field of lithium-ion battery negative electrode materials, in particular, the invention relates to a lithium-ion battery silicon-carbon composite negative electrode material and a preparation method thereof. Background technique [0002] Lithium-ion batteries have the advantages of high voltage, high energy density, no memory effect, long life, green and pollution-free, and low self-discharge. They have gradually become the preferred power supply equipment for various portable electronic products and are inseparable from people's daily life. [0003] Although lithium-ion batteries using graphite as the negative electrode material occupy a large proportion in the market, the theoretical specific capacity of graphite is relatively low, which is increasingly unable to meet the requirements of miniaturization of electronic equipment and high-power and high-capacity lithium-ion batteries for vehicles. . [0004] As the negative...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/62H01M4/1393H01M4/1395B82Y30/00B82Y40/00
CPCY02E60/10
Inventor 岳敏郑德立李胜何鹏任建国黄友元
Owner BTR NEW MATERIAL GRP CO LTD
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