Ph2Si[OSiMe2H]2: Properties, Applications, and Synthesis of a Versatile Siloxane Compound
Explore the detailed characteristics and industrial relevance of Bis(dimethylsiloxy)diphenylsilane, a key siloxane intermediate.
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Bis(dimethylsiloxy)diphenylsilane
This specialized siloxane compound, known as Ph2Si[OSiMe2H]2, offers a unique combination of properties making it valuable across various industrial sectors. Its specific molecular structure and high purity ensure reliable performance in demanding applications.
- Delve into the specific properties of Ph2Si[OSiMe2H]2 CAS 17875-55-7, understanding its role as a crucial chemical intermediate.
- Explore the diverse application of Bis(dimethylsiloxy)diphenylsilane, particularly its function as a crosslinker for advanced silicone materials.
- Understand the synthesis process of 3,3-diphenyl-1,1,5,5-tetramethyltrisiloxane and its importance in creating tailored silicone products.
- Discover the detailed chemical formula and physical characteristics of Trisiloxane 1,1,5,5-tetramethyl-3,3-diphenyl, aiding in precise material selection.
Advantages of Using Ph2Si[OSiMe2H]2
Exceptional Purity
With a minimum purity of 97%, this siloxane compound ensures consistent and high-quality results in sensitive chemical processes and formulations, supporting reliable material development.
Versatile Siloxane Applications
The unique structure of Bis(dimethylsiloxy)diphenylsilane lends itself to a broad spectrum of uses within the siloxane family, serving as a vital component in the creation of specialized silicone materials.
Reliable Chemical Intermediate
As a key chemical intermediate for silicone applications, understanding the uses of Tetramethyl diphenyl dihydrogen trisiloxane is essential for chemical manufacturers seeking to innovate in materials science.
Key Applications
Liquid Silicone Rubber Crosslinking
The specific molecular design of Ph2Si[OSiMe2H]2 makes it an effective crosslinker for liquid silicone rubber, enhancing the final product's thermal stability and mechanical properties.
Phenyl Silicone Rubber Formulations
This siloxane compound plays a crucial role in the formulation of phenyl silicone rubber, contributing to improved high-temperature performance and chemical resistance.
Phenyl Silicone Resin Production
Utilizing Bis(dimethylsiloxy)diphenylsilane in the synthesis of phenyl silicone resins imparts desirable characteristics such as enhanced thermal stability and dielectric properties.
Advanced Chemical Synthesis
As a key chemical intermediate, Trisiloxane 1,1,5,5-tetramethyl-3,3-diphenyl is employed in complex synthesis pathways for novel organosilicon materials, pushing the boundaries of material science.