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Atomfair Lithium dicyanamide C2LiN3

Description Lithium Dicyanamide (C2LiN3) is a high-purity inorganic compound widely utilized in advanced electrochemical and materials research. With the IUPAC name lithium;dicyanoazanide and CAS number 195199-57-6, this white crystalline powder exhibits exceptional stability and solubility in polar solvents, making it ideal for lithium-ion battery electrolytes, ionic liquid synthesis, and catalysis. Its unique dicyanamide anion (N(CN)2SUB_SUP_3 ) contributes to low viscosity and high conductivity in non-aqueous systems. Packaged under inert conditions to ensure longevity, our product undergoes rigorous QC testing (HPLC, NMR) to guarantee ??99% purity. Suitable for glovebox handling and compatible with organic solvents like acetonitrile and DMF.

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Description

Description

Lithium Dicyanamide (C2LiN3) is a high-purity inorganic compound widely utilized in advanced electrochemical and materials research. With the IUPAC name lithium;dicyanoazanide and CAS number 195199-57-6, this white crystalline powder exhibits exceptional stability and solubility in polar solvents, making it ideal for lithium-ion battery electrolytes, ionic liquid synthesis, and catalysis. Its unique dicyanamide anion (N(CN)2?) contributes to low viscosity and high conductivity in non-aqueous systems. Packaged under inert conditions to ensure longevity, our product undergoes rigorous QC testing (HPLC, NMR) to guarantee ??99% purity. Suitable for glovebox handling and compatible with organic solvents like acetonitrile and DMF.

  • CAS No: 195199-57-6
  • Molecular Formula: C2LiN3
  • Molecular Weight: 73.0
  • Exact Mass: 73.02522545
  • Monoisotopic Mass: 73.02522545
  • IUPAC Name: lithium;dicyanoazanide
  • SMILES: [Li+].C(#N)[N-]C#N
  • Synonyms: lithium dicyanamide, 195199-57-6

Application

Lithium dicyanamide serves as a key precursor for lithium-ion battery electrolytes due to its high thermal stability and ionic conductivity. It is also employed in the synthesis of ionic liquids for green chemistry applications. Researchers leverage its catalytic properties in organic transformations, such as cycloaddition reactions. Additionally, it finds use in polymer electrolytes for solid-state batteries.

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