Dimethylethoxysilane: Properties, Applications, and Chemical Insights
Discover the key attributes and uses of this essential organosilicon compound, CAS 14857-34-2.
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Dimethylethoxysilane
Dimethylethoxysilane, identified by its CAS number 14857-34-2, is a crucial organosilicon compound known for its utility in various advanced applications. Its chemical structure and properties make it a valuable intermediate in the synthesis of specialized materials.
- Explore the unique properties of dimethylethoxysilane, including its physical state as a clear liquid and its defined boiling and flash points.
- Learn about the application of dimethylethoxysilane as a vital waterproofing agent, famously used in the space shuttle's thermal tiles.
- Understand the reactivity of dimethylethoxysilane with moisture and bases, which leads to the formation of diverse chemical products.
- Delve into the chemical synthesis aspects of dimethylethoxysilane, a key area of interest for researchers and industrial chemists.
Key Advantages
Versatile Chemical Intermediate
Leverage dimethylethoxysilane in your chemical synthesis projects, utilizing its reactive Si-H bond for diverse transformations.
Advanced Material Applications
Benefit from the proven performance of dimethylethoxysilane in applications like surface modification and as a component in advanced materials.
Proven Thermal Protection
Recognize the historical significance of dimethylethoxysilane in providing essential thermal protection for aerospace components.
Key Applications
Aerospace Industry
Dimethylethoxysilane's role as a waterproofing agent for space shuttle thermal tiles showcases its critical importance in demanding environmental conditions.
Chemical Synthesis
As a reactive silane, dimethylethoxysilane serves as a versatile building block for creating more complex organosilicon compounds and polymers.
Material Science
The properties of dimethylethoxysilane make it suitable for surface modification techniques, enhancing material performance and durability.
Industrial Processes
Its specific chemical reactivity enables dimethylethoxysilane to be employed in various industrial processes requiring specialized chemical intermediates.