Unveiling Chlorodimethyl[3-(2,3,4,5,6-pentafluorophenyl)propyl]silane
Explore the advanced properties, synthesis, and diverse applications of this specialized organosilicon compound.
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Chlorodimethyl[3-(2,3,4,5,6-pentafluorophenyl)propyl]silane
This organosilicon compound, identified by CAS number 157499-19-9, is a versatile chemical entity. Its primary value lies in its ability to modify surfaces and act as a key intermediate in advanced chemical synthesis, particularly for introducing fluorinated functionalities.
- Discover the intricacies of pentafluorophenylpropyldimethylchlorosilane synthesis, exploring efficient and scalable methods.
- Learn about the diverse chlorodimethyl 3-(2,3,4,5,6-pentafluorophenyl)propyl silane applications, from material science to organic chemistry.
- Understand how organosilicon surface modification leverages unique chemical properties for advanced material design.
- Explore the development of fluorinated stationary phases for HPLC, enhancing separation capabilities through specialized bonding.
Key Advantages
Enhanced Surface Properties
The ability to perform organosilicon surface modification with this compound leads to improved hydrophobicity and chemical resistance on various substrates.
Advanced Chromatographic Selectivity
Utilizing fluorinated stationary phases for HPLC, derived from this silane, offers superior separation of complex mixtures due to unique retention mechanisms.
Versatile Organic Synthesis Tool
As a chlorosilane reagent in organic synthesis, it efficiently introduces pentafluorophenyl groups, crucial for tuning electronic properties and molecular stability.
Key Applications
Surface Modification
This compound is pivotal for altering material surfaces, imparting specific characteristics like improved water repellency and reduced surface energy, essential in advanced materials development.
Chromatography Stationary Phases
Its use in creating fluorinated stationary phases for HPLC significantly enhances the resolution and separation of challenging analytes through sophisticated retention mechanisms.
Organic Synthesis Intermediate
As a chlorosilane reagent in organic synthesis, it's invaluable for introducing the pentafluorophenyl moiety, a modification that can dramatically alter a molecule's electronic properties and reactivity.
Catalysis
The compound's reactive chlorosilane group enables its use as a catalyst or precursor in various chemical transformations, facilitating the formation of siloxanes and silazanes.