Lithium Oxalate (CAS 553-91-3) is a chemical compound whose utility is deeply rooted in its fundamental properties. Understanding these characteristics provides insight into why it is so valuable in fields ranging from electrochemistry to organic synthesis. The basic lithium oxalate properties, such as its appearance as white crystals and its solubility, are just the beginning of its chemical story.

Chemically, Lithium Oxalate is the dilithium salt of oxalic acid. Its molecular formula, C2Li2O4, indicates the presence of lithium cations and oxalate anions. This ionic nature contributes to its stability and its role in electrochemical applications, such as in lithium oxalate battery electrolyte development. The compound's behavior under thermal stress, typically decomposing at high temperatures, is also a critical property considered in manufacturing processes.

The compound’s reactivity makes it a useful intermediate in chemical synthesis. As an oxalate salt, it can participate in various organic reactions, acting as a source of oxalate ions or facilitating reactions involving lithium. The precise control over its synthesis, as indicated by lithium oxalate CAS 553-91-3, ensures that chemists can rely on its predictable behavior in complex reactions.

Moreover, its function as an lithium oxalate analytical reagent is a direct consequence of its chemical reactivity and purity. It can be used to precipitate or react with specific analytes, allowing for their identification and quantification. The exploration of lithium oxalate industrial uses consistently points back to its fundamental chemical nature as the source of its versatility, from powering batteries to enabling new pharmaceutical developments.