Unlocking Synthetic Versatility: Chlorodimethylvinylsilane for Advanced Organic Synthesis
A high-purity organosilicon compound essential for cutting-edge chemical transformations and material innovation.
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Chlorodimethylvinylsilane
Chlorodimethylvinylsilane, identified by CAS 1719-58-0, is a pivotal organosilicon compound celebrated for its role in advanced organic synthesis. With an assay of 98% minimum and a colorless transparent liquid appearance, it serves as an indispensable intermediate for creating complex chemical structures.
- Explore the utility of chlorodimethylvinylsilane in organic synthesis for developing novel compounds.
- Discover how vinyldimethylchlorosilane can be used to prepare silicon-containing polymers with unique properties.
- Learn about the applications of organosilicon compounds in material science and advanced chemical research.
- Investigate the synthesis of silaheterocycles using chlorodimethylvinylsilane as a key building block.
Key Advantages
Synthetic Versatility
Leverage the diverse reactivity of chlorodimethylvinylsilane for a wide range of organic transformations, making it a cornerstone for innovation in organic synthesis.
Material Innovation
Utilize this compound to create advanced silicon-containing polymers, enhancing material properties and opening new avenues in material science applications.
High Purity and Reliability
Ensure consistent and predictable results in your research and production with a product guaranteed to meet high standards, supporting your fine chemical intermediate needs.
Key Applications
Organic Synthesis
As a critical component in organic synthesis, chlorodimethylvinylsilane facilitates the creation of complex molecules and intermediates, driving progress in chemical research.
Polymer Chemistry
Its role in preparing silicon-containing polymers highlights its importance in developing new materials with tailored properties for various industrial uses, a key aspect of polymer synthesis.
Material Science
The unique characteristics derived from incorporating silicon make this compound valuable in advancing material science applications, from advanced coatings to specialized composites.
Chemical Research & Development
Facilitating the synthesis of silaheterocycles and novel chelating ligands, it empowers R&D efforts in discovering new chemical entities and methodologies, underpinning crucial fine chemical intermediate research.