Unlock the Potential of Hexamethylcyclotrisilazane (CAS 1009-93-4)
Discover the versatile applications and chemical properties of this key organosilicon compound.
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Hexamethylcyclotrisilazane
Hexamethylcyclotrisilazane (CAS 1009-93-4) is a crucial organosilicon compound widely recognized for its utility as a monomer in the synthesis of high polymers. Its excellent hydrolysis stability, attributed to significant steric hindrance, makes it a preferred choice in demanding applications within the engineering plastics industry.
- Leveraging CAS 1009-93-4 uses for advanced polymer synthesis, this silazane monomer readily undergoes ring-opening copolymerization with various other monomers, particularly in the presence of a hydroxyl group, enabling the creation of novel polymeric structures.
- Explore the benefits of silazane monomer applications by utilizing its unique properties for modifying positive resists, enhancing their resistance to O2 plasma, a critical step in microelectronics fabrication.
- Understand the role of organosilicon materials like hexamethylcyclotrisilazane in facilitating silylation reactions, particularly for diols, which is a key process in organic synthesis and materials modification.
- Investigate the hydrolysis stability of silazanes to ensure reliable performance and predictable reactions in diverse chemical environments and manufacturing processes.
Key Advantages and Benefits
Enhanced Polymerizability
As a versatile chemical monomer, its structure facilitates easy ring-opening and copolymerization, paving the way for new material development in polymer science.
High Hydrolysis Stability
The inherent stability of this silazane derivative due to steric hindrance ensures reliable handling and predictable outcomes in chemical reactions and product formulations.
Broad Industrial Applicability
From engineering plastics to microelectronics, the diverse CAS 1009-93-4 uses demonstrate its value across multiple high-tech industries.
Key Applications
Synthetic Polymer Monomer
Utilized as a foundational building block for creating advanced polymers, capitalizing on its copolymerization capabilities to tailor material properties.
Engineering Plastics
Integral to the production of high-performance engineering plastics, enhancing their mechanical and thermal characteristics through its unique chemical structure.
Microelectronics
Plays a role in semiconductor manufacturing by modifying positive resists for improved plasma resistance, a vital application for advanced circuitry.
Silylation Reagent
Serves as an effective silylation reagent for diols and other reactive species, facilitating various organic synthesis pathways and material surface modifications.