Trimethylsilylacetylene CAS 1066-54-2: A Versatile Building Block for Organic Synthesis and Material Science
Discover the utility of Trimethylsilylacetylene in chemical synthesis and advanced material applications.
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Trimethylsilylacetylene
Trimethylsilylacetylene is a highly versatile chemical intermediate, primarily recognized for its role as a silican-protected group. Its stable liquid form makes it a safer and more manageable alternative to gaseous acetylene, offering significant advantages in various synthetic procedures. The compound's high assay of ≥98.0% ensures reliability in critical chemical reactions.
- Discover the key role of Trimethylsilylacetylene synthesis in creating complex organic molecules, leveraging its unique reactivity.
- Explore the diverse Ethynyltrimethylsilane applications in advanced materials, from thin films to polymers.
- Understand the essential Trimethylsilylacetylene chemical properties that make it a preferred reagent in modern chemistry.
- Learn how this silane protected acetylene acts as a stable and reactive synthon in numerous organic transformations.
Advantages Provided by the Product
Enhanced Safety and Handling
Unlike gaseous acetylene, Trimethylsilylacetylene is a liquid, simplifying handling and reducing safety risks in laboratory and industrial settings. This makes the trimethylsilylacetylene synthesis of target compounds more accessible.
Versatile Reactivity in Synthesis
Its structure allows for a wide range of reactions, including palladium-catalyzed coupling and nucleophilic attacks, making it an indispensable tool for organic synthesis building blocks.
Material Science Innovation
As a precursor in laser-induced polymerization of ethynyltrimethylsilane, it enables the efficient chemical vapor deposition of polycarbosilane films, contributing to advancements in material science.
Key Applications
Ethynylation Reactions
Trimethylsilylacetylene is a valuable reagent used in ethynylation by palladium(0)-catalyzed coupling/condensation with aryl and vinyl halides and triflates, showcasing its importance in organic synthesis building blocks.
Chemical Vapor Deposition (CVD)
The compound facilitates the efficient chemical vapor deposition of polycarbosilane films through laser-induced polymerization, highlighting its role in laser induced polymerization ethynyltrimethylsilane.
Cross-Coupling Reactions
It acts as a substrate for nickel-catalyzed cross-coupling with benzonitriles, demonstrating its utility in various catalytic processes and advancing trimethylsilylacetylene chemical properties understanding.
Asymmetric Synthesis
Trimethylsilylacetylene is a common intermediate for asymmetric synthesis, enabling the creation of stereochemically defined molecules and reinforcing its status as a silane protected acetylene.