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Atomfair 4-Hydroxypent-3-en-2-one;iridium C15H24IrO6

Description 4-Hydroxypent-3-en-2-one;iridium (CAS No. 15635-87-7) is a highly specialized organometallic compound with the molecular formula C15H24IrO6. This iridium-based complex is meticulously synthesized for advanced research and industrial applications, offering exceptional purity and stability. Its unique structure, featuring a hydroxypentenone ligand coordinated to iridium, makes it a valuable precursor in catalysis, material science, and coordination chemistry. Ideal for researchers seeking high-performance organometallic reagents, this compound is rigorously tested to meet stringent quality standards. Available in customizable quantities, it is packaged under inert conditions to ensure longevity and performance consistency.

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Description

Description

4-Hydroxypent-3-en-2-one;iridium (CAS No. 15635-87-7) is a highly specialized organometallic compound with the molecular formula C15H24IrO6. This iridium-based complex is meticulously synthesized for advanced research and industrial applications, offering exceptional purity and stability. Its unique structure, featuring a hydroxypentenone ligand coordinated to iridium, makes it a valuable precursor in catalysis, material science, and coordination chemistry. Ideal for researchers seeking high-performance organometallic reagents, this compound is rigorously tested to meet stringent quality standards. Available in customizable quantities, it is packaged under inert conditions to ensure longevity and performance consistency.

  • CAS No: 15635-87-7
  • Molecular Formula: C15H24IrO6
  • Molecular Weight: 492.56
  • Exact Mass: 493.12021
  • Monoisotopic Mass: 493.12021
  • IUPAC Name: 4-hydroxypent-3-en-2-one;iridium
  • SMILES: CC(=CC(=O)C)O.CC(=CC(=O)C)O.CC(=CC(=O)C)O.[Ir]

Application

4-Hydroxypent-3-en-2-one;iridium is primarily utilized as a catalyst or catalyst precursor in homogeneous catalysis, particularly for hydrogenation and C-C coupling reactions. Its stability and reactivity make it suitable for exploring novel synthetic pathways in organic and organometallic chemistry. Researchers also employ this compound in the development of iridium-based materials for optoelectronic applications.

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