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The impact of silica gel pore and particle sizes on HPLC column efficiency and resolution for an immobilized, cyclodextrin-based, chiral stationary phase

✍ Scribed by Qing Qin; Sheng Zhang; Wei-Guang Zhang; Zhen-Bin Zhang; Ya-Jin Xiong; Zi-Yuan Guo; Jun Fan; Sheng Run-Zheng; David Finlow; Yong Yin

Publisher: John Wiley and Sons
Year: 2010
Tongue: English
Weight: 222 KB
Volume: 33
Category: Article
ISSN: 1615-9306
DOI: 10.1002/jssc.200900831

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✦ Synopsis

Abstract

In this study, the CD derivative, mono (6^A^‐azido‐6^A^‐deoxy)‐per(p‐chlorophenylcarbamonylated) β‐CD was chemically immobilized onto the surface of an amino‐functionalized silica gel with different pore (100, 300, and 500Å) and particle (3, 5, and 10 μm) sizes to obtain novel chiral stationary phases. The impact of pore and particle size on the amount of immobilized Ph‐β‐CD, column performance, and enantioselectivity was investigated by evaluating the separation of a variety of racemates in both the normal‐ and the reversed‐phase modes. Experimental results revealed that the retention factor and resolution of racemates generally decreased with increasing pore size; the column prepared with the smallest (3 μm) silica gel particle size gave the best column performance and enantioselectivity in both the normal‐ and the reversed‐phase modes.

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