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Atomfair 1,9-Decadiene C10H18

Description 1,9-Decadiene (CAS No. 1647-16-1) is a high-purity linear aliphatic diene with the molecular formula C10H18, widely utilized in organic synthesis and polymer research. This colorless liquid, characterized by its two reactive terminal double bonds, serves as a versatile building block for cross-linking agents, specialty polymers, and fine chemical intermediates. With an IUPAC name of deca-1,9-diene , it offers exceptional reactivity in metathesis, hydroformylation, and copolymerization reactions. Our product is rigorously tested to ensure >98% purity (GC), packaged under inert gas to prevent degradation, and optimized for applications requiring controlled molecular architecture. Available in research (5g-1kg) and bulk quantities with…

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Description

Description

1,9-Decadiene (CAS No. 1647-16-1) is a high-purity linear aliphatic diene with the molecular formula C10H18, widely utilized in organic synthesis and polymer research. This colorless liquid, characterized by its two reactive terminal double bonds, serves as a versatile building block for cross-linking agents, specialty polymers, and fine chemical intermediates. With an IUPAC name of deca-1,9-diene, it offers exceptional reactivity in metathesis, hydroformylation, and copolymerization reactions. Our product is rigorously tested to ensure >98% purity (GC), packaged under inert gas to prevent degradation, and optimized for applications requiring controlled molecular architecture. Available in research (5g-1kg) and bulk quantities with customizable packaging options.

  • CAS No: 1647-16-1
  • Molecular Formula: C10H18
  • Molecular Weight: 138.25
  • Exact Mass: 138.140850574
  • Monoisotopic Mass: 138.140850574
  • IUPAC Name: deca-1,9-diene
  • SMILES: C=CCCCCCCC=C
  • Synonyms: 1,9-DECADIENE, 1647-16-1, EINECS 216-711-6, NSC 102789, DTXSID4022159

Application

1,9-Decadiene is employed as a key monomer in the synthesis of polyolefin elastomers and telechelic polymers via ADMET polymerization. Its bifunctional reactivity enables cross-linking in silicone and hydrocarbon-based polymer systems, enhancing material toughness. Researchers utilize it as a model substrate in catalytic metathesis studies to develop novel ruthenium and molybdenum catalysts.

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