Atomfair Bis(acetonitrile)dichloroplatinum C4H6Cl2N2Pt

Description Bis(acetonitrile)dichloroplatinum (CAS No. 13869-38-0) is a high-purity organometallic compound with the molecular formula C4H6Cl2N2Pt . This platinum-based complex is widely utilized in catalysis, materials science, and pharmaceutical research due to its unique reactivity and stability. The compound features a square-planar geometry with acetonitrile ligands, making it an excellent precursor for synthesizing other platinum complexes. Suitable for use in homogeneous catalysis, electrochemical studies, and as a reagent in organic transformations. Each batch undergoes rigorous QC testing to ensure ??98% purity (HPLC/ICP-OES). Available in amber glass vials under inert gas to prevent degradation. Store in a cool, dry place away from…

Description

Bis(acetonitrile)dichloroplatinum (CAS No. 13869-38-0) is a high-purity organometallic compound with the molecular formula C₄H₆Cl₂N₂Pt. This platinum-based complex is widely utilized in catalysis, materials science, and pharmaceutical research due to its unique reactivity and stability. The compound features a square-planar geometry with acetonitrile ligands, making it an excellent precursor for synthesizing other platinum complexes. Suitable for use in homogeneous catalysis, electrochemical studies, and as a reagent in organic transformations. Each batch undergoes rigorous QC testing to ensure ??98% purity (HPLC/ICP-OES). Available in amber glass vials under inert gas to prevent degradation. Store in a cool, dry place away from light and moisture.

CAS No: 13869-38-0
Molecular Formula: C4H6Cl2N2Pt
Molecular Weight: 348.09
Exact Mass: 346.955598
Monoisotopic Mass: 346.955598
IUPAC Name: acetonitrile;platinum(2+);dichloride
SMILES: CC#N.CC#N.[Cl-].[Cl-].[Pt+2]
Synonyms: 237-619-2, bis(acetonitrile)dichloroplatinum, einecs 237-619-2, cis-Diacetonitriledichloroplatinum (II), 21264-32-4

Application

Bis(acetonitrile)dichloroplatinum serves as a versatile catalyst in cross-coupling reactions and hydrogenation processes. Researchers employ it in the development of novel metal-organic frameworks (MOFs) and coordination polymers. The compound is also investigated for potential anticancer applications due to its structural similarity to cisplatin derivatives. Its stability in organic solvents makes it ideal for electrochemical studies and materials science applications.

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