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Atomfair Dilithium;hydroxide Li2O HLi2O+
Description Dilithium Hydroxide (CAS No. 12057-24-8) is an inorganic compound with the molecular formula HLi2O+, commonly referred to by its IUPAC name dilithium;hydroxide . This high-purity compound is available in anhydrous form, ensuring optimal performance for specialized applications. Dilithium Hydroxide is widely utilized in advanced material synthesis, energy storage systems, and chemical research due to its unique alkaline properties. Our product undergoes rigorous quality control to meet the stringent demands of researchers and industrial scientists. It is supplied in secure, moisture-resistant packaging to maintain stability and shelf life. Synonyms: Lithium oxide anhydrous, Li2O, DTXSID10893208, NS00129660
Description
Description
Dilithium Hydroxide (CAS No. 12057-24-8) is an inorganic compound with the molecular formula HLi2O+, commonly referred to by its IUPAC name dilithium;hydroxide. This high-purity compound is available in anhydrous form, ensuring optimal performance for specialized applications. Dilithium Hydroxide is widely utilized in advanced material synthesis, energy storage systems, and chemical research due to its unique alkaline properties. Our product undergoes rigorous quality control to meet the stringent demands of researchers and industrial scientists. It is supplied in secure, moisture-resistant packaging to maintain stability and shelf life.
Synonyms: Lithium oxide anhydrous, Li2O, DTXSID10893208, NS00129660
- CAS No: 12057-24-8
- Molecular Formula: HLi2O+
- Molecular Weight: 30.9
- Exact Mass: 31.03474652
- Monoisotopic Mass: 31.03474652
- Charge: 1
- IUPAC Name: dilithium;hydroxide
- SMILES: [Li+].[Li+].[OH-]
- Synonyms: dilithium;hydroxide, Li2O, Lithium oxide anhydrous, DTXSID10893208, NS00129660
Application
Dilithium Hydroxide is primarily used in the development of lithium-based batteries and energy storage solutions due to its high ionic conductivity. It serves as a precursor in the synthesis of advanced ceramics and optical materials. Researchers also employ it in catalysis and as a pH regulator in specialized chemical processes.
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