Method of preparing lithium ion battery negative pole carbon material
A lithium ion battery and a manufacturing method technology, applied in battery electrodes, circuits, electrical components, etc., can solve the problems of reducing battery capacity and cycle life, unfavorable lithium ion deintercalation, reducing battery safety, etc., to improve safety and reliability. The effect of cyclability, increased area, and increased capacity
Inactive Publication Date: 2010-09-08
袁植良
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The main types of commonly used carbon negative electrode manufacturing methods are: heating soft carbon at a certain high temperature to obtain highly graphitized carbon; decomposing cross-linked resin with a special structure at high temperature to obtain hard carbon; Hydrogen-containing carbon, etc. are prepared, but most of the negative electrode carbon materials produced by the existing method are coated spherical structures, which are not conducive to the complete deintercalation of lithium ions, and the deposition of lithium generated by multiple cycles not only reduces the capacity of the battery And cycle life, and it is easy to form dendrite lithium, which makes the internal short circuit of the battery and greatly reduces the safety of the battery
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Dissolve coal tar pitch or petroleum pitch in gasoline at a blending ratio of 20% to 80%, and remove insoluble components in it by rapid solidification and dilution; put the pitch at a temperature of 400°C to 700°C in N2 or Ar gas Heat treatment in the atmosphere for 3-30 hours to fully carbonize the pitch and pulverize the carbonized pitch; heat-treat the pulverized carbonized pitch at 2000-3000°C for 5-30 hours in a N2 or Ar gas atmosphere. The pulverized pitch is graphitized, and the graphitized pitch is dissolved in hydrogen peroxide at a ratio of 10% to 60%, and sintered at a temperature of 80 to 300°C for 2 to 50 hours in an oxygen atmosphere to obtain a porous layered high-capacity carbon anode material.
The porosity range of the lithium ion battery negative electrode carbon material provided by the present invention is 30%-50%. Such a large porosity determines that the effective surface area of the material is relatively large. This structure is not only conducive to...
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The invention provides a method for manufacturing anode carbon materials of lithium ion batteries; asphalt is dissolved in gasoline according to the blending proportion of 20-80 %, and insoluble components are removed; the mixture is heated at 400-700 DEG C for 3-30 hours in nitrogen or argon to completely carbonize asphalt and the carbonized asphalt is crushed; the crushed and carbonized asphaltis heated at the high temperature from 2,000 to 3,000 DEG C for 5-30 hours for graphitization to graphitize the crushed asphalt; the graphitized asphalt is dissolved in hydrogen peroxide according tothe proportion of 10-60% and is sintered for 2-50 hours at 80-300 DEG C in oxygen to obtain the porous and laminar anode carbon materials of lithium ion batteries. The material produced by the methodis beneficial for the extraction and insertion of lithium ions and the enlargement of the area for receiving lithium ions, can facilitate the formation of SEI films and the widening of the path for extraction and insertion of lithium ions at the inner layer and improve the capacity, safety and circularity of batteries.
Description
technical field The invention relates to the technical field of manufacturing lithium ion batteries, in particular to a method for manufacturing negative electrode carbon materials of lithium ion batteries. Background technique Lithium-ion battery is an ideal small green power source. Since its appearance in 1990, it has developed rapidly because of its excellent performance and has been widely used in society. Lithium-ion batteries have high working voltage, large specific energy, long cycle life, low self-discharge rate, no memory effect, and no pollution. It has quickly occupied many fields with its incomparable advantages, such as mobile phones and notebooks Computers, small cameras, etc., and more and more countries use the battery for military purposes. The positive electrode material of the lithium-ion battery is lithium cobalt oxide, and the negative electrode material is carbon. When the battery is charged, lithium ions are generated on the positive electrode of t...
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IPC IPC(8): C01B31/02H01M4/38
CPCY02E60/10
Inventor 李中延王自霞
Owner 袁植良