Discover the Versatility of 1,3-Bis(4-hydroxybutyl)tetramethyldisiloxane
A key organosilicon compound driving innovation in material science and polymer applications.
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1,3-Bis(4-hydroxybutyl)tetramethyldisiloxane
This organosilicon compound, identified by CAS number 5931-17-9, is a vital building block in advanced material synthesis. Its primary utility lies in its function as an end-capper for carbinol-terminated silicones, a critical step in the production of specialized materials like those used in contact lenses. With its well-defined structure and reactive hydroxyl groups, it facilitates precise polymer chain termination and modification, leading to materials with enhanced properties.
- Explore the intricate synthesis routes for 1,3-bis(4-hydroxybutyl)tetramethyldisiloxane, a process vital for chemical intermediate production.
- Understand the critical role of this organosilicon end-capper in achieving specific silicone properties.
- Discover the applications of this high purity siloxane in cutting-edge material science.
- Learn how this tetramethyldisiloxane derivative contributes to the development of advanced polymers.
Key Advantages
Precision Polymer Modification
Leverage the reactive hydroxyl groups of this siloxane for precise polymer chain termination, crucial for tailoring material performance in advanced applications.
Versatile Chemical Intermediate
As a versatile chemical intermediate, it enables the creation of custom silicones and other organosilicon compounds with specific functionalities, supporting diverse material science research.
Enhanced Material Properties
The incorporation of this tetramethyldisiloxane derivative contributes to improved properties in the final silicone products, such as biocompatibility and optical clarity, vital for applications like contact lenses.
Key Applications
Silicone Synthesis
Serve as a critical organosilicon end-capper for carbinol-terminated silicones, enabling controlled polymerization for specialized applications.
Contact Lenses
Essential in the formulation of advanced contact lens materials, contributing to their biocompatibility and comfort.
Material Science Research
A valuable compound for research and development in advanced polymers and novel material synthesis, facilitating exploration of new chemical structures and properties.
Chemical Intermediate
Acts as a key building block for various organosilicon compounds, supporting custom synthesis and the development of specialty chemicals.
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