The connection between lithium carbonate and new energy batteries
Lithium carbonate is one of the most commonly used positive electrode materials in new energy batteries, especially in lithium-ion batteries, as it can provide high energy density and long life performance.
Lithium ion batteries are currently the most commonly used electric vehicle batteries, using lithium carbonate as the positive electrode material and graphite as the negative electrode material. During the charging process, lithium ions flow from the positive electrode material (lithium carbonate) to the negative electrode material (graphite), and vice versa during the discharge process. During this process, the movement of lithium ions generates a current between the positive and negative electrodes, providing electricity.
The application of lithium carbonate is not limited to lithium-ion batteries, but can also be used as a positive electrode material in various battery types such as sodium ion batteries, lithium sulfur batteries, zinc air batteries, etc. Regardless of the type of battery, they require an efficient and stable positive electrode material to provide electricity.
Lithium carbonate is a chemical substance that is one of the most common compounds of lithium. Lithium is a chemical element located in the third group of the periodic table, with the chemical symbol Li. Lithium rarely exists in pure form in nature, usually in the form of compounds. Lithium carbonate is an important compound of lithium with wide applications.
The chemical formula of lithium carbonate is Li2CO3, which is a white powdery substance. It is unstable in the air and is easily absorbed and dissolved by water. Lithium carbonate is alkaline and can react with acids to produce salts and water. At high temperatures, lithium carbonate can be decomposed into lithium oxide and carbon dioxide.