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Atomfair Tetramethylammonium chloride TMACl C4H12ClN

Description Tetramethylammonium Chloride (CAS: 10549-76-5) is a high-purity quaternary ammonium salt with the molecular formula C4H12ClN . This white crystalline solid is widely utilized in organic synthesis, phase-transfer catalysis, and electrochemical applications due to its exceptional stability and solubility in polar solvents. Our premium-grade product undergoes rigorous quality control to ensure ??98% purity, making it ideal for sensitive research applications. Suitable for use as a templating agent in zeolite synthesis, a supporting electrolyte in non-aqueous electrochemistry, and a reagent for methylation reactions. Packaged in moisture-resistant containers to maintain integrity and shipped with detailed analytical certificates (CoA).

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Description

Description

Tetramethylammonium Chloride (CAS: 10549-76-5) is a high-purity quaternary ammonium salt with the molecular formula C4H12ClN. This white crystalline solid is widely utilized in organic synthesis, phase-transfer catalysis, and electrochemical applications due to its exceptional stability and solubility in polar solvents. Our premium-grade product undergoes rigorous quality control to ensure ??98% purity, making it ideal for sensitive research applications. Suitable for use as a templating agent in zeolite synthesis, a supporting electrolyte in non-aqueous electrochemistry, and a reagent for methylation reactions. Packaged in moisture-resistant containers to maintain integrity and shipped with detailed analytical certificates (CoA).

  • CAS No: 10549-76-5
  • Molecular Formula: C4H12ClN
  • Molecular Weight: 109.60
  • Exact Mass: 109.0658271
  • Monoisotopic Mass: 109.0658271
  • IUPAC Name: tetramethylazanium;chloride
  • SMILES: C[N+](C)(C)C.[Cl-]
  • Synonyms: TETRAMETHYLAMMONIUM CHLORIDE, Tetramine chloride, USAF AN-8, N,N,N-Trimethylmethanaminium chloride, Methanaminium, N,N,N-trimethyl-, chloride

Application

Tetramethylammonium chloride serves as a versatile phase-transfer catalyst in nucleophilic substitution reactions. It is employed in the synthesis of advanced materials, including mesoporous silica and zeolites. Researchers also utilize it as a supporting electrolyte in non-aqueous electrochemical studies due to its wide potential window.

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