As a new generation of environmental protection and high performance battery, lithium ion battery has become one of the key directions of battery industry development. As the key material, lithium battery cathode material accounts for more than 40% of the total cost of raw materials, and its performance directly affects the performance indicators of lithium battery.
The quality of cathode material directly determines the performance and price of lithium battery, so the research of low cost and high performance cathode material has always been the focus of the development of lithium battery industry.
Why High Purity Manganese Chemicals?
1. Enhancing Energy Density: High-purity manganese salts, as precursors for lithium battery cathode materials, help to increase the battery's energy density by providing more lithium ions to participate in the charge-discharge process, thus increasing the battery's capacity.
2. Optimizing Electrochemical Performance: The use of high-purity manganese salts can improve the electrochemical performance of cathode materials, including enhancing their cycling stability and charge-discharge rates, which is essential for the battery's quick charging and long-term use.
3. Ensuring Structural Stability: High-purity manganese salts help maintain the structural stability of cathode materials during the charge-discharge process, reducing structural degradation caused by impurities or uneven reactions, which is crucial for maintaining the battery's long-term performance and safety.
4. Improving Thermal Stability and Safety: High-purity manganese salts contribute to the thermal stability of the battery, reducing the risk of thermal runaway, which is a key factor in battery safety.
5. Promoting Material Reversibility: High-purity manganese salts can improve the reversibility of cathode materials during the charge-discharge process, reducing capacity loss and extending the battery's service life.
