When iron impurities are present, during the battery charging process, iron loses electrons to form iron ions. This is similar to how the speed of a vehicle on a smooth road suddenly drops when many obstacles appear. Similarly, the conduction of ions within the battery slows down, increasing the internal resistance. The PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal process can reduce this internal resistance.
These iron ions react with the organic solvents in the electrolyte, leading to its decomposition and the formation of various products, including gases and solid precipitates. These products affect the battery's conductivity by forming obstacles in the electrolyte that hinder ion conduction. The PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal process significantly reduces the energy storage and release of batteries, which can store more energy.
However, the actual increase in internal resistance means that the battery generates more heat during charging and discharging, increasing energy loss. The PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal process improves the battery's charging and discharging efficiency and energy density, preventing short circuits and safety accidents caused by iron impurity deposition. Reducing iron impurities also decreases the deposition on the electrode surface, minimizing the formation of micro-short circuit points
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