Diphenylsilane: A Versatile Reagent for Organic Synthesis and Material Science Applications
Discover the power of Diphenylsilane, a key organosilicon compound driving innovation in chemistry and material science.
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Diphenylsilane
Diphenylsilane (CAS 775-12-2) is a highly versatile organosilicon compound renowned for its applications in various chemical transformations and material development. It is a colorless to pale yellow transparent liquid with a purity of 98% GC and 98.0% HPLC, making it a reliable choice for demanding research and industrial processes.
- This reagent serves as a vital hydrogen atom donor, crucial for the Diphenylsilane for deoxygenation reactions, enabling efficient removal of oxygen atoms from various organic molecules.
- Its utility extends to Diphenylsilane applications in organic synthesis, particularly in radical chain processes for deamination via isonitriles and dehalogenation of halogenated compounds.
- The ability to act as a reducing agent in Diphenylsilane for organic synthesis highlights its importance in creating complex molecular structures and developing novel chemical pathways.
- Leveraging Diphenylsilane purity 98% GC ensures high reaction yields and product consistency in both laboratory research and industrial-scale production.
Advantages Offered by the Product
Enhanced Reaction Efficiency
Utilize the power of Diphenylsilane as a reducing agent to achieve higher yields and cleaner reaction profiles in complex organic synthesis.
Versatile Synthetic Capabilities
Benefit from the broad applicability of Diphenylsilane in organic synthesis, from deoxygenation to dehalogenation, opening doors to new chemical discoveries.
Material Science Innovation
Explore the potential of Diphenylsilane in creating advanced materials, contributing to breakthroughs in areas like sensor technology and specialized polymers.
Key Applications
Organic Synthesis
Diphenylsilane is a critical reagent for various organic transformations, including the Diphenylsilane for deoxygenation of alcohols via their thiocarbonyl derivatives.
Reductions
It acts as an effective hydrogen atom donor in radical chain reactions for deamination via isonitriles and dehalogenation of bromo- and iodo- compounds.
Material Development
Diphenylsilane is used in the preparation of fluorescent film sensors and silyl-substituted alkylidene complexes, contributing to advanced material science.
Catalysis
It is employed in reductive cyclization reactions and the reduction of esters to alcohols in the presence of rhodium catalysts.