Diphenylsilane CAS:775-12-2: Properties, Applications, and Supplier Information
Discover the key properties and applications of Diphenylsilane (CAS:775-12-2), a vital compound for organic synthesis and radical chain processes. Learn why it's a preferred choice for researchers and manufacturers.
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Diphenylsilane
Diphenylsilane is a highly valued compound in the field of organic chemistry, recognized for its crucial role in various synthetic transformations. As a reliable supplier in China, we offer high-purity Diphenylsilane (98%min) essential for precise chemical reactions. Its efficacy as a hydrogen atom donor in radical chain processes makes it indispensable for advanced organic synthesis and the creation of specific thiocarbonyl derivatives. We are committed to providing quality chemical intermediates to meet the diverse needs of our global clientele.
- Explore the unique properties of Diphenylsilane as a hydrogen atom donor in radical chain processes, enabling efficient chemical reductions.
- Discover how Diphenylsilane can be utilized for the synthesis of thiocarbonyl derivatives, a key application in organic synthesis.
- Understand the importance of Diphenylsilane as a versatile intermediate for developing new chemical compounds.
- Learn about the typical purity levels and physical characteristics, such as its liquid state and color, ensuring suitability for delicate reactions.
Advantages of Using Diphenylsilane
High Purity for Reliable Results
With a guaranteed purity of 98%min, Diphenylsilane ensures predictable and reproducible outcomes in your organic synthesis, supporting your pursuit of high-quality chemical products.
Versatile Reactivity
Its capability to act as a hydrogen atom donor makes Diphenylsilane a versatile reagent for various reduction reactions, essential for complex molecular assembly.
Facilitates Radical Chain Processes
Diphenylsilane is instrumental in initiating and sustaining radical chain reactions, a fundamental mechanism in modern organic chemistry, enabling efficient bond formation and functional group transformations.
Key Applications
Organic Synthesis
Diphenylsilane serves as a crucial building block and reagent in a wide array of organic synthesis pathways, supporting the creation of complex molecules.
Chemical Reduction
Its function as a hydrogen atom donor makes it an effective agent for reducing various organic functional groups, a core process in chemical manufacturing.
Radical Chemistry
Diphenylsilane plays a vital role in radical chain reactions, facilitating transformations that are otherwise difficult to achieve through other mechanisms.
Intermediate for Specialty Chemicals
It is a key intermediate in the production of various specialty chemicals, highlighting its importance in the broader chemical industry.