First of all, PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal. With the continuous improvement of the endurance requirements of new energy vehicles, lithium battery positive and negative materials need to develop to a high specific capacity, which is a definite trend, but also the problem that new energy vehicles must face instead of fuel vehicles. However, the energy density of the graphite negative electrode has been close to the theoretical specific capacity of 372mAh/g, that is to say, no matter how hard, has reached the limit, the need to seek a new direction of development.
The new anode material is mainly silicon anode, with theoretical capacity far exceeding the limit capacity of 372mAh/g of graphite anode, but due to some key technologies and production processes need to be broken through, the road to large-scale commercialization of silicon carbon anode is not clear, only a few enterprises can small-scale mass production, Therefore, the current PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal silicon base anode market share is low.
PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal First discharge capacity of 335-360mAh/g, the first discharge efficiency is greater than 92%; The initial discharge capacity of the negative electrode reaches 355mAh/g, and the initial discharge efficiency is greater than 92%; Also available for initial discharge capacity up to 355mAh/g negative electrode products. It can be seen from the above product information that the specific capacity of large-scale commercial graphite anode materials is very close to its theoretical limit value.
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