Discover the Potential of Dimethylmethoxy(3,3,3-Trifluoropropyl)Silane
Explore the versatile applications and unique properties of this advanced organosilicon compound for your material science needs.
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Dimethylmethoxy(3,3,3-Trifluoropropyl)Silane
This organosilicon compound, identified by CAS 4852-13-5, is a key building block in advanced material synthesis. Its unique structure, featuring a trifluoropropyl group, imparts special characteristics suitable for a range of high-performance applications.
- Leverage the unique properties of fluorinated silanes for enhanced material performance, a key aspect of trifluoropropylsilane intermediate properties.
- Explore the synthesis of advanced organosilicon compounds, utilizing this silane as a crucial component in chemical synthesis.
- Understand the handling requirements for moisture sensitive silane compounds to ensure optimal product integrity and efficacy.
- Incorporate this versatile chemical intermediate for effective surface treatment and the development of specialty coatings.
Product Advantages
Enhanced Chemical Reactivity
The methoxy group on the silicon atom makes this compound reactive, enabling its use in various chemical reactions and facilitating organosilicon synthesis.
Fluorine-Induced Performance
The presence of the trifluoropropyl group significantly alters the compound's properties, potentially offering improved thermal stability, chemical resistance, and unique surface characteristics, a benefit of trifluoropropylsilane intermediate properties.
Versatile Application Potential
As a specialty chemical intermediate, it can be utilized in diverse sectors, contributing to innovations in coatings, sealants, and other advanced materials.
Key Applications
Material Modification
Utilize this silane to modify the surface properties of materials, enhancing adhesion or imparting hydrophobic/oleophobic characteristics through its unique structure, a common use for organosilicon compounds.
Specialty Coatings
Formulate high-performance coatings with improved durability and specific functionalities, drawing on the advantages of fluorinated silanes.
Chemical Synthesis
As a critical building block, it plays a role in the synthesis of complex organosilicon polymers and other advanced chemical products.
Surface Treatment
Apply this compound for precise surface treatment, improving the performance and longevity of various substrates.