Atomfair Tetrakis(acetonitrile)copper(I) tetrafluoroborate C8H12BCuF4N4

Description Tetrakis(acetonitrile)copper(I) tetrafluoroborate (CAS No. 15418-29-8) is a high-purity coordination complex featuring a copper(I) center ligated by four acetonitrile molecules, paired with a non-coordinating tetrafluoroborate counterion. With the molecular formula C8H12BCuF4N4, this compound is widely utilized in catalysis, electrochemistry, and materials science due to its stable yet reactive copper(I) center. The acetonitrile ligands enhance solubility in polar organic solvents, making it ideal for homogeneous reactions. Our product is rigorously tested for purity, ensuring optimal performance in sensitive applications. Suitable for researchers and industrial scientists seeking a reliable copper(I) source with excellent handling properties.

Description

Tetrakis(acetonitrile)copper(I) tetrafluoroborate (CAS No. 15418-29-8) is a high-purity coordination complex featuring a copper(I) center ligated by four acetonitrile molecules, paired with a non-coordinating tetrafluoroborate counterion. With the molecular formula C₈H₁₂BCuF₄N₄, this compound is widely utilized in catalysis, electrochemistry, and materials science due to its stable yet reactive copper(I) center. The acetonitrile ligands enhance solubility in polar organic solvents, making it ideal for homogeneous reactions. Our product is rigorously tested for purity, ensuring optimal performance in sensitive applications. Suitable for researchers and industrial scientists seeking a reliable copper(I) source with excellent handling properties.

CAS No: 15418-29-8
Molecular Formula: C8H12BCuF4N4
Molecular Weight: 314.56
Exact Mass: 314.038711
Monoisotopic Mass: 314.038711
IUPAC Name: acetonitrile;copper(1+);tetrafluoroborate
SMILES: [B-](F)(F)(F)F.CC#N.CC#N.CC#N.CC#N.[Cu+]
Synonyms: Tetrakis(acetonitrile)copper(I) tetrafluoroborate, 15418-29-8, DTXSID80451051, DTXCID00401871, 672-614-2

Application

This compound is primarily used as a catalyst in organic synthesis, particularly in coupling reactions such as the Ullmann reaction. It also serves as a precursor for copper-containing nanomaterials and thin films in electronic applications. Additionally, its redox-active properties make it valuable in electrochemical studies and battery research. The acetonitrile-stabilized copper(I) center is advantageous for air-sensitive reactions.

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