Unlocking Advanced Applications with 6-Phenylhexyldimethylchlorosilane (CAS 97451-53-1)
Discover the versatile properties and critical applications of this specialty silane in chromatography and nanotechnology.
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6-Phenylhexyldimethylchlorosilane
This specialty phenyl silane, identified by CAS number 97451-53-1, is a clear liquid with unique chemical properties. Its molecular structure, featuring a chlorosilane functional group, a phenyl group, and a long hexyl chain, makes it exceptionally valuable for advanced material science applications, particularly in surface modification.
- The unique molecular structure of 6-phenylhexyldimethylchlorosilane enables advanced surface modification techniques.
- Leverage phenyl silane surface modification for enhanced chromatographic separations in HPLC applications.
- This organosilane monomer plays a crucial role in synthesizing high-performance HPLC stationary phases.
- Explore the potential of specialty chemical synthesis with 6-phenylhexyldimethylchlorosilane for nanotechnology innovations.
Key Advantages
Enhanced Chromatographic Performance
The introduction of the 6-phenylhexyl chain significantly increases the hydrophobicity and aromaticity of stationary phases, crucial for effective HPLC stationary phase modification and separating hydrophobic compounds.
Nanotechnology Integration
Its reactive silane nature allows for precise surface functionalization of nanoparticles, opening doors for novel applications within the realm of nanotechnology and advanced materials.
Versatile Chemical Intermediate
As a versatile chemical intermediate, 6-phenylhexyldimethylchlorosilane facilitates the synthesis of complex organosilanes, driving innovation in specialty chemical synthesis.
Key Applications
HPLC Stationary Phase Modification
The compound is extensively utilized for the surface modification of chromatographic columns, enhancing selectivity and stability, particularly for HPLC stationary phase modification.
Surface Modification of Nanoparticles
Its ability to chemically bond with surfaces makes it an ideal agent for modifying silica nanoparticles and other materials, impacting nanotechnology advancements.
Specialty Chemical Synthesis
Serves as a key building block in the synthesis of various specialty organosilanes and complex molecular structures for diverse industrial needs.
Research and Development
A crucial reagent in R&D for developing new materials, optimizing analytical techniques, and exploring novel chemical reactions.