Silicon-carbon anode has obvious short-term advantages in the field of consumer electronics, while power batteries need to break through the bottleneck of cycle life. With the maturity of nanosilicon preparation and pre-lithium technology, it is expected to achieve a penetration of 5% to 10% in high-end electric vehicles in 2025.PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC Iron removal technology has important applications in various industries, especially in power plants, mining, food processing, chemical and pharmaceutical fields.
With the progress of technology and the improvement of industry demand, iron removal technology is also constantly developing and innovating. Improving the efficiency of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal is one of the main directions in the development of iron removal technology. The current commercial capacity is<450 mAh / g, mainly adapted to the 3C field; the power battery needs silicon oxygen anode (450-500 mAh / g), but the silicon carbon cycle performance is insufficient.
At present, the iron removal efficiency of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal technology is generally more than 90%, but with the improvement of the requirements for iron removal technology in various industries, the efficiency of iron removal of iron removal technology needs to be further improved. By adopting more efficient magnetic materials and optimizing the equipment design, the magnetic field strength and uniformity can be enhanced, and thus the capture of iron impurities can be improved.
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