It provides a new idea to solve the problem of iron impurity in the anode materials of lithium batteries. In the past, the iron removal technology is more about the iron removal operation after the synthesis of materials, and the combination of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal and material design can reduce the problems caused by iron impurities from the source, and also help to promote the development and application of new high-performance cathode materials.
These high-precision detection techniques provide important support for PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal. First, they can accurately assess the effect of the iron removal technique. Before and after the iron removal operation, these detection techniques can be used to accurately measure the iron impurity content in the cathode material, so as to determine whether the iron removal technology has achieved the desired effect.
Secondly, the distribution of iron impurities in cathode materials can be accurately detected (e. g. uniform distribution or local enrichment). If iron impurities are found to be enriched in some parts, the layout of the iron removal equipment or the iron removal process can be adjusted to improve the efficiency and effect of iron removal.
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