Negative electrode materials should be selected according to material characteristics (particle size, form) and production environment (dry / wet method). Electromagnetic dry PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC has significant comprehensive advantages in efficiency and environmental protection, while silicon-based materials need customized equipment with higher magnetic field strength.
PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC As a new type of lithium-ion battery anode material iron removal equipment, it has attracted much attention because of its unique performance characteristics. The theoretical specific capacity of silicon-carbon anode material can reach 4200 mAh / g, which is much higher than the traditional graphite anode material (about 372 mAh / g). This feature makes silicon-carbon anode materials have great potential to improve cell energy density.
Silicon is abundant and relatively cheap, and the use of silicon-carbon anode materials can effectively reduce the cost of batteries. Moreover, the PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC preparation process of silicon-carbon anode materials is relatively simple and suitable for large-scale production. In silicon carbon anode material will have a large volume change during charging and discharging, leading to the instability of the electrode structure, thus affecting the cycle life of the battery. This is an important problem to be solved in the application of silicon-carbon anode materials.
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