Silane Functionalization: Understanding Hydrolyzed (gamma-(beta-aminoethylamino)propyl)triethoxysilane Polymer
Explore the versatile applications and chemical properties of Hydrolyzed (gamma-(beta-aminoethylamino)propyl)triethoxysilane polymer, a key player in advanced materials and surface science. Discover its role as a silane coupling agent.
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Hydrolyzed (gamma-(beta-aminoethylamino)propyl)triethoxysilane polymer
We are a reliable supplier in China offering Hydrolyzed (gamma-(beta-aminoethylamino)propyl)triethoxysilane polymer (CAS 68400-09-9). This chemical is crucial for enhancing adhesion and modifying surfaces in various industrial applications, acting as a key chemical intermediate. Its unique structure provides a bridge between organic and inorganic materials.
- Discover the benefits of using this silane coupling agent for composites, improving their mechanical strength and durability.
- Learn how this amino silane is integral for surface modification, creating functionalized interfaces for advanced applications.
- Understand the chemical properties of CAS 68400-09-9, including its molecular formula and weight, to guide your product development.
- Explore its potential in creating stable silanetriol for biosensor immobilization, paving the way for advanced diagnostic tools.
Key Advantages
Enhanced Adhesion
Leverage the strong bonding capabilities of this silane coupling agent for composites to achieve superior product performance and longevity.
Surface Functionalization
Utilize its properties as an amino silane for surface modification, enabling tailor-made surface characteristics for niche applications.
Versatile Intermediate
Benefit from its role as a versatile chemical intermediate, facilitating the synthesis of complex materials and improved product formulations.
Key Applications
Surface Modification
Apply this silane for surface modification to improve wettability, adhesion, and introduce reactive functional groups to various substrates.
Composite Materials
Enhance the properties of composite materials by using this silane coupling agent for composites, leading to better mechanical strength and durability.
Adhesives & Sealants
Improve the performance of adhesives and sealants by incorporating this chemical intermediate, ensuring stronger and more resilient bonds.
Biotechnology
Explore its use in biotechnology, particularly in creating stable silanetriol for biosensor immobilization and other bio-related applications.