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Atomfair Zinc pivalate C10H18O4Zn

Description Zinc Pivalate (CAS No. 15827-10-8) is a high-purity organometallic compound with the molecular formula C10H18O4Zn , also known by its IUPAC name zinc;2,2-dimethylpropanoate . This white to off-white crystalline powder is widely utilized in catalysis, polymer stabilization, and as a precursor in material science applications. With a molecular weight of 267.64 g/mol, it exhibits excellent solubility in organic solvents while remaining stable under standard conditions. Our Zinc Pivalate is rigorously tested for purity (>98%) and consistency, making it ideal for research, pharmaceutical synthesis, and industrial processes. Packaged under inert gas to ensure longevity, this product meets the stringent requirements…

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Description

Description

Zinc Pivalate (CAS No. 15827-10-8) is a high-purity organometallic compound with the molecular formula C10H18O4Zn, also known by its IUPAC name zinc;2,2-dimethylpropanoate. This white to off-white crystalline powder is widely utilized in catalysis, polymer stabilization, and as a precursor in material science applications. With a molecular weight of 267.64 g/mol, it exhibits excellent solubility in organic solvents while remaining stable under standard conditions. Our Zinc Pivalate is rigorously tested for purity (>98%) and consistency, making it ideal for research, pharmaceutical synthesis, and industrial processes. Packaged under inert gas to ensure longevity, this product meets the stringent requirements of academic and industrial laboratories.

  • CAS No: 15827-10-8
  • Molecular Formula: C10H18O4Zn
  • Molecular Weight: 267.6
  • Exact Mass: 266.049651
  • Monoisotopic Mass: 266.049651
  • IUPAC Name: zinc;2,2-dimethylpropanoate
  • SMILES: CC(C)(C)C(=O)[O-].CC(C)(C)C(=O)[O-].[Zn+2]
  • Synonyms: Zinc pivalate, 15827-10-8, EINECS 239-929-3, DTXSID00166392, DTXCID5088883

Application

Zinc Pivalate serves as a highly efficient catalyst in organic synthesis, particularly in cross-coupling reactions and polymerization processes. It is employed as a thermal stabilizer in PVC and other polymer systems to enhance durability. Researchers also utilize it as a precursor for zinc oxide nanomaterials and thin-film depositions in semiconductor applications.

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