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Global Graphite market trend 2024-2026 What is the lithium Intercalation Mechanism of Graphite? by Newsinfoskep

After Russia pledged to scale back its military operations around Kyiv and in northern Ukraine, the prices of most industrial metals fell, led by aluminum, showing people's concerns for supply shortage eased.

At an earlier time, the West imposed sweeping sanctions on Russia for its invasion of Ukraine, which aroused concerns about the supply problem because Russia is a major producer of nickel, aluminum, and copper. 

Russia is also a major gas supplier to Europe, where potential supply disruptions are seen as hitting power-intensive aluminum and zinc Graphite are still very uncertain.

Graphite has good conductivity, high crystallinity, and a well-layered structure. It is very suitable for repeated intercalation and deintercalation of lithium ions. It is currently the most widely used and most mature negative electrode material. After lithium ions are intercalated between the graphite layers, a lithium intercalation compound LixC6 (0≤x≤1) is formed, and the theoretical capacity can reach 372mAh/g (x=1). The reaction formula is: xLi++6C+xe-→LixC6

Lithium-ion intercalation changes the stacking mode between graphite layers from ABAB to AAAA.


Graphite modification treatment

Since the graphite interlayer spacing (d≤0.34nm) is smaller than the crystal plane interlayer spacing (0.37nm) of the graphite lithium intercalation compound LixC6, the graphite layer spacing changes during the charging and discharging process, which is easy to cause the graphite layer to peel off, pulverize, and also occur. Lithium ions and organic solvent molecules co-intercalate into the graphite layer, and the organic solvent decomposes, affecting the battery cycle performance.

Through graphite modification, such as oxidation on the surface of graphite and coating of polymer pyrolytic carbon, composite graphite with a core-shell structure can be formed, improving the charge and discharge performance of graphite and increasing the specific capacity.

Other anode materials

At present, graphite is the mainstream commercial lithium battery negative electrode material. Its theoretical gram capacity is 372mAh/g. The graphite negative electrode material with better performance on the market can reach 360mAh/g, and the gram capacity gradually tends to the limit value. Although graphite as a negative electrode material has disadvantages such as low gram capacity and cycle deviation, because of the high-cost performance of graphite-based negative electrode materials, it will not be replaced by new materials immediately. The specific reasons are as follows:

1. The new anode material technology is immature, and it will take a long time for performance improvement;

2. The price of new anode materials is higher, and the price advantage of graphite anodes is obvious;

3. The negative electrode material needs to be used in combination with the positive electrode material, electrolyte, etc., and the specific capacity of the current positive electrode material is generally low.

High-quality graphite supplier

Luoyang Moon & Star New Energy Technology Co., LTD, founded on October 17, 2008, is a high-tech enterprise committed to developing, producing, processing, selling, and technical services of lithium-ion battery anode materials. After more than 10 years of development, the company has gradually developed into a diversified product structure with natural graphite, artificial graphite, composite graphite, intermediate phase, and other negative materials (silicon-carbon materials, etc.). The products are widely used in high-end lithium-ion digital power and energy storage batteries. If you are looking for Lithium battery anode material, click on the needed products and send us an


A preparation developed in China; the comfort and the multifunctional properties of nanomaterials make "dead skin" capable of sensing again. Electronic skin is artificial skin that mimics the function of human skin. Recently, the world-renowned journal Advanced Science reported a simple and highly programmable electronic skin on a leather substrate developed by a Chinese team, which combines the natural complex structure of leather, the comfort of wearing, and the multi-functional properties of nanomaterials. , so that the "dead skin" has the ability to sense again.

In the future, Graphite will be used in various high-tech fields, and the market demand for Graphite will also be great. Please contact us for more information on Graphite.

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