6-Phenylhexyldimethylchlorosilane: Advanced Surface Modifier for HPLC and Nanotechnology
Unlock superior separation performance with this reactive silane, ideal for HPLC and advanced material applications.
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6-Phenylhexyldimethylchlorosilane
This highly reactive chlorosilane uniquely combines aromatic stability with long-chain hydrophobicity. Its specific molecular structure makes it an exceptional choice for modifying silica nanoparticles, particularly for High-Performance Liquid Chromatography (HPLC) stationary phases. This modification process leads to a significant enhancement in peak resolution and extends the operational lifespan of chromatographic columns, making it indispensable for precision analytical tasks.
- Discover the benefits of surface modification of silica nanoparticles with chlorosilane for advanced chromatography applications.
- Learn how to improve peak resolution and enhance column longevity in HPLC using specialized silane coupling agents.
- Explore the hydrophobic and aromatic surface modification benefits for chromatography offered by this phenyl silane.
- Understand the role of reactive chlorosilanes in nanotechnology applications for surface functionalization.
Key Advantages
Enhanced Separation Efficiency
By facilitating aromatic and hydrophobic surface modifications, this silane significantly boosts the separation capabilities of chromatography columns, enabling precise analysis of complex samples.
Improved Column Stability
The chemical fixation of silanol groups through silicon-oxygen-silicon bonds leads to improved chemical stability, increasing the column's resistance to acids, alkalis, and high temperatures, thereby extending its service life.
Tailored Surface Properties
The unique combination of phenyl and hexyl chains allows for fine-tuning of surface hydrophobicity and aromaticity, making it versatile for various chromatographic needs and enhancing selectivity through π-π interactions.
Key Applications
HPLC Stationary Phase Modification
Utilized for creating high-performance stationary phases in HPLC, offering superior retention and selectivity for hydrophobic and aromatic compounds.
Nanoparticle Surface Functionalization
Serves as a critical surface modifier for nanoparticles, imparting specific chemical properties for use in advanced material applications.
Chromatographic Analysis
Enhances separation performance in both Gas Chromatography (GC) and Liquid Chromatography (LC) by providing stable and hydrophobic column inner walls.
Material Science Intermediate
Acts as a valuable intermediate in the synthesis of advanced materials, leveraging its unique phenyl and silane functionalities.