Atomfair Lithium thiocyanate hydrate CH2LiNOS

Description Lithium Thiocyanate Hydrate (CAS No. 123333-85-7) is a high-purity inorganic compound with the molecular formula CH2LiNOS. This hydrate form of lithium thiocyanate is widely utilized in electrochemical research, material science, and synthetic chemistry due to its ionic conductivity and solubility in polar solvents. The product is supplied as a crystalline solid with strict quality control to ensure consistency in research applications. Ideal for battery electrolyte formulations, catalysis, and as a precursor in organic synthesis, this compound is handled under controlled conditions to maintain its stability and performance. Each batch is analytically verified for purity, moisture content, and trace contaminants…

Description

Lithium Thiocyanate Hydrate (CAS No. 123333-85-7) is a high-purity inorganic compound with the molecular formula CH₂LiNOS. This hydrate form of lithium thiocyanate is widely utilized in electrochemical research, material science, and synthetic chemistry due to its ionic conductivity and solubility in polar solvents. The product is supplied as a crystalline solid with strict quality control to ensure consistency in research applications. Ideal for battery electrolyte formulations, catalysis, and as a precursor in organic synthesis, this compound is handled under controlled conditions to maintain its stability and performance. Each batch is analytically verified for purity, moisture content, and trace contaminants to meet the stringent requirements of scientific and industrial applications.

CAS No: 123333-85-7
Molecular Formula: CH2LiNOS
Molecular Weight: 83.1
Exact Mass: 83.00171330
Monoisotopic Mass: 83.00171330
IUPAC Name: lithium;thiocyanate;hydrate
SMILES: [Li+].C(#N)[S-].O
Synonyms: Lithium thiocyanate hydrate, 629-475-8, 123333-85-7, Thiocyanic acid, lithium salt, hydrate (9CI), Lithiumthiocyanatehydrate

Application

Lithium Thiocyanate Hydrate is primarily used as an electrolyte additive in lithium-ion batteries to enhance ionic conductivity and cycling stability. It also serves as a versatile reagent in organic synthesis for the preparation of thiocyanate derivatives. In material science, it is employed in the fabrication of conductive polymers and coordination complexes. Researchers value its role in non-aqueous electrochemical systems due to its solubility in organic solvents.

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