The anode material with larger particles has a smaller specific surface area, implying relatively few reactive active sites. In the PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal process, the iron inside the large particles may be difficult to fully contact with the iron removal reagent. In graphite anode materials, carbon element is the main element, and its content and distribution will affect the electrical conductivity and other properties of the material.
In iron oxide as a cathode material, larger particles of iron oxide in the reaction process prone to irreversible phase transition, even in low charge and discharge rate, the cycle process can lead to poor dynamics and serious capacity attenuation, this situation will also affect the PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal efficiency, because iron removal process is often related to the electrochemical properties and structural stability of the material.
The main element content in the cathode material will affect the basic properties of the material, and then affect the efficiency of iron removal. If the content of the main element changes, it may lead to changes in the electrical conductivity and ion diffusion ability of the material, which will affect the iron removal process. In the process of iron removal, the electrochemical method PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal is adopted. The poor conductivity of the material will affect the rate of electrode reaction and reduce the efficiency of iron removal.
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