Trimethylsilyl Cyanide (TMSCN): A Versatile Reagent in Organic Synthesis
Unlock new possibilities in organic chemistry with the powerful cyanosilation capabilities of Trimethylsilyl Cyanide.
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Trimethylsilyl Cyanide
Trimethylsilyl Cyanide (TMSCN), with CAS number 7677-24-9, is a highly effective and versatile reagent in modern organic synthesis. Its primary utility lies in its ability to act as a synthon for hydrogen cyanide, facilitating cyanosilation reactions that introduce a nitrile group into organic molecules. This process is fundamental for creating new carbon-carbon bonds, a cornerstone of complex molecule construction.
- Explore the diverse uses of TMSCN in organic chemistry for advanced synthetic strategies.
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- Learn about trimethylsilyl cyanide properties essential for successful cyanosilation reactions.
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Advantages Provided by the Product
Efficient Cyanation
TMSCN offers an efficient pathway for introducing cyanide groups, crucial for the trimethylsilyl cyanide synthesis of complex intermediates and pharmaceuticals.
Versatile Reagent
Its applicability spans various organic transformations, making it a key component for researchers looking to buy trimethylsilyl cyanide online for innovative applications.
Enhanced Bond Formation
The ability to form new carbon-carbon bonds via cyanosilation significantly enhances molecular complexity, a vital aspect when considering the uses of TMSCN in organic chemistry.
Key Applications
Organic Synthesis
As a trimethylsilyl cyanide equivalent for HCN, it is extensively used in the synthesis of cyanohydrins and other nitrile-containing compounds.
Pharmaceutical Intermediates
The product plays a vital role in the production of key intermediates for the pharmaceutical industry, leveraging its trimethylsilyl cyanide properties.
Fine Chemicals Manufacturing
Its use in trimethylsilyl cyanide synthesis contributes to the broader fine chemical sector, providing essential building blocks for various industries.
Material Science
Potential applications exist in material science where the introduction of nitrile functionalities can impart specific properties.