1,1,3,3-Tetrachloro-1,3-Disilabutane: Synthesis, Applications, and Safety in Advanced Materials
Exploring the multifaceted role of this key organosilicon compound in modern chemical industries and research.
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1,1,3,3-Tetrachloro-1,3-Disilabutane
This organochlorosilane, CAS 148859-49-8, is a vital intermediate known for its reactivity and versatility. Its Si-Cl bonds enable it to act as a fundamental building block in the synthesis of advanced materials, contributing to innovations in electronics, polymers, and specialized chemical applications.
- High Purity and Reactivity: With an assay of 90%min, this compound is ideal for applications requiring precise chemical reactions and consistent material properties, crucial for organosilicon synthesis.
- Versatile Synthetic Utility: It serves as a key precursor in various synthetic pathways, including the formation of linear polysilaethylenes, making it indispensable for developing novel silicon-based polymers.
- Advanced Material Precursor: Its role extends to being a critical component in creating high-performance materials like silicone elastomers, enhancing their flexibility and thermal resistance.
- Key Intermediate in SiC Deposition: As a single-source precursor for Chemical Vapor Deposition (CVD), it is instrumental in producing stoichiometric silicon carbide (SiC) films essential for semiconductor manufacturing.
Key Advantages
Enhanced Material Properties
Incorporation into silicone formulations significantly boosts mechanical properties and thermal resistance, a benefit leveraged in silicone elastomer precursor applications.
Facilitates Complex Synthesis
The compound's structure and reactive Si-Cl bonds make it a powerful tool for dehydrohalogenative coupling reactions, enabling the creation of diverse organosilicon compounds for specialized uses.
Crucial for Semiconductor Fabrication
Its utility as a precursor in CVD processes for SiC films highlights its importance in the semiconductor industry, contributing to the development of high-power electronic devices.
Key Applications
Semiconductor Manufacturing
Utilized in Chemical Vapor Deposition (CVD) to produce high-quality silicon carbide (SiC) films, vital for advanced electronic components.
Organic Synthesis
Serves as a versatile intermediate in dehydrohalogenative coupling reactions, leading to the synthesis of specialized silane derivatives.
Materials Science
Acts as a precursor for high-performance silicone elastomers, improving their flexibility, thermal stability, and overall mechanical characteristics.
Precursor for Silicon-Based Polymers
Essential in the controlled polymerization of compounds like polysilaethylene, enabling the creation of soluble and processable materials for fiber molding.
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