Tetraallylsilane (CAS 1112-66-9): A Versatile Silicon Compound for Advanced Applications
Explore the unique properties and applications of Tetraallylsilane, a key organic silicon compound vital for modern scientific research and industrial advancements. Discover its role in cutting-edge synthesis and material development.
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Tetraallylsilane
As a reliable supplier in China, we offer Tetraallylsilane (CAS 1112-66-9), a crucial organic silicon compound. Its molecular formula C12H20Si and colorless liquid appearance make it a distinct chemical entity. We pride ourselves on providing high-quality materials essential for advanced chemical research and development, supporting your innovative projects as a trusted manufacturer in China.
- Unlock new possibilities in dendrimer synthesis using Tetraallylsilane, a key organic silicon intermediate.
- Discover the diverse uses of Tetraallylsilane in research & development, a vital component for your next breakthrough.
- Explore the application of CAS 1112-66-9 in advanced material science, backed by our reliable supply chain.
- Benefit from our expertise as a manufacturer of high-purity silicon compounds, ensuring quality for your specific needs.
Advantages You'll Gain
Versatile Chemical Intermediate
Leverage Tetraallylsilane as a versatile chemical intermediate, essential for buy Tetraallylsilane for research and driving innovation in various chemical synthesis pathways.
Enabling Dendrimer Synthesis
Facilitate complex dendrimer synthesis with Tetraallylsilane, a critical component for creating advanced branched structures and functional materials.
High Purity for Research
Ensure accuracy and reliability in your scientific endeavors with our high-purity Tetraallylsilane, a dependable choice for your research needs.
Key Applications
Dendrimer Synthesis
Tetraallylsilane plays a pivotal role in the construction of complex dendrimers, a cornerstone for advanced material science and nanotechnology research.
Chemical Intermediates
As a vital chemical intermediate, Tetraallylsilane facilitates various organic synthesis pathways, contributing to the development of new chemical entities.
Research & Development
This compound is indispensable in research and development settings, providing scientists with a crucial tool for exploring novel chemical reactions and applications.
Material Science
Its unique silicon-based structure makes Tetraallylsilane valuable in material science, contributing to the creation of novel materials with specialized properties.