-
Definition of Li3BO3
Li3BO3, also known as Lithium Borate, is an inorganic chemical compound formed from three Lithium atoms (Li) and one borate (BO3). Each Lithium atom has an atomic mass of 6.94 atomic mass units, and borate has an atomic mass of 30.86 atomic mass units. Therefore, the molecular weight of Li3BO3 is 51.72 atomic mass units. In the Li3BO3 molecule, the Lithium atoms and borate bond together in a tetrahedral shape to form borate ions, where Lithium atoms intersperse with borate ions. -
Properties: Li3BO3
Li3BO3 is a white, odorless solid. Its physical state can vary depending on the temperature and pressure. The chemical properties of Li3BO3 include its ability to react with other substances such as metals, acids, nonmetals, and salts. -
Common Chemical Equations of Li3BO3
Li3BO3 can react with metals, acids, and nonmetals, resulting in various other compounds. However, in laboratory conditions, these reactions may not commonly occur. -
Synthesis of Li3BO3
In the laboratory, Li3BO3 can be synthesized through the reaction between Lithium and Borate. On an industrial scale, it is typically produced by blending Lithium with Boric Acid.