Atomfair Dimethyldivinylsilane C6H12Si

Description Dimethyldivinylsilane (CAS No. 10519-87-6) is a highly versatile organosilicon compound with the molecular formula C6H12Si . Also known as bis(ethenyl)-dimethylsilane , this clear, volatile liquid is characterized by its reactive vinyl groups, making it a valuable intermediate in organic synthesis and polymer chemistry. Its unique structure enables cross-linking and functionalization in silicone-based materials, enhancing thermal stability and mechanical properties. Ideal for researchers and industrial applications, our Dimethyldivinylsilane is rigorously purified to ??98% (GC) and packaged under inert gas to ensure maximum stability. Suitable for use in hydrosilylation reactions, silicone elastomers, and advanced material science applications.

Description

Dimethyldivinylsilane (CAS No. 10519-87-6) is a highly versatile organosilicon compound with the molecular formula C₆H₁₂Si. Also known as bis(ethenyl)-dimethylsilane, this clear, volatile liquid is characterized by its reactive vinyl groups, making it a valuable intermediate in organic synthesis and polymer chemistry. Its unique structure enables cross-linking and functionalization in silicone-based materials, enhancing thermal stability and mechanical properties. Ideal for researchers and industrial applications, our Dimethyldivinylsilane is rigorously purified to ??98% (GC) and packaged under inert gas to ensure maximum stability. Suitable for use in hydrosilylation reactions, silicone elastomers, and advanced material science applications.

CAS No: 10519-87-6
Molecular Formula: C6H12Si
Molecular Weight: 112.24
Exact Mass: 112.070826917
Monoisotopic Mass: 112.070826917
IUPAC Name: bis(ethenyl)-dimethylsilane
SMILES: C[Si](C)(C=C)C=C
Synonyms: Dimethyldivinylsilane, 10519-87-6, Silane, diethenyldimethyl-, diethenyldimethylsilane, EINECS 234-060-6

Application

Dimethyldivinylsilane is widely used as a cross-linking agent in silicone polymer synthesis, particularly in heat-curable elastomers and resins. Its dual vinyl groups facilitate copolymerization with hydride-terminated siloxanes, enabling the production of high-performance silicones with improved flexibility and durability. Additionally, it serves as a key precursor in the fabrication of specialty coatings, adhesives, and release agents. Researchers also employ it in surface modification and as a building block for organosilicon frameworks in materials science.

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