溶剂对反相和HILIC色谱选择性的影响

IF 5.2 Q1 CHEMISTRY, ANALYTICAL
Xavier Subirats, Laura Casanovas, Lídia Redón, Martí Rosés
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引用次数: 1

摘要

本文利用Abraham溶剂化参数模型对几种反相和HILIC色谱系统进行了表征,重点研究了溶质极化率、偶极性、氢键和分子体积对色谱保留的影响。尽管十八烷基硅烷柱中的保留时间明显取决于流动相中有机改性剂的性质和含量,但据报道,含有40%至80%乙腈或甲醇的洗脱液具有相似的色谱选择性。影响保留的最相关的分析物性质是氢键受体容量和分子体积,前者有利于分配到流动相中,后者有利于分配进固定相中。HILIC系统的行为在很大程度上取决于载体(二氧化硅或聚合物)、键合相(两性离子、氨丙基、二羟基丙基)和洗脱液中使用的有机溶剂(乙腈或甲醇)的性质,但它们的共同点是,较大的溶质体积允许更有利地分配到富含有机溶剂的流动相中。应谨慎评估HILIC中电离分析物的色谱保留率,因为它们可能与电离缓冲物质相互作用,导致出乎意料的低保留率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of the solvent on the chromatographic selectivity in reversed-phase and HILIC

Effect of the solvent on the chromatographic selectivity in reversed-phase and HILIC

In this work, the characterization of several reversed-phase and HILIC chromatographic systems is presented by means of the Abraham's solvation parameter model, focusing on the impact of solute polarizability, dipolarity, hydrogen bonding, and molecular volume on chromatographic retention. Although retention times in octadecylsilane columns are clearly dependent on the nature and content of the organic modifier in the mobile phase, similar chromatographic selectivities are reported for eluents containing acetonitrile or methanol in the range between 40 and 80%. The most relevant analyte properties affecting retention are the hydrogen bond acceptor capacity and the molecular volume, the former favoring partition into the mobile phase and the latter into the stationary phase. The behavior of HILIC systems greatly depends on the nature of the support (silica or polymeric), the bonded phase (zwitterionic, aminopropyl, dihydroxypropyl) and the organic solvent used in the eluent (acetonitrile or methanol), but they have in common that larger solute volumes allow more favorable partition into the organic solvent-rich mobile phase. The evaluation of the chromatographic retention of ionized analytes in HILIC should be performed with care, since they may interact with ionized buffering species, leading to unexpected lower retentions.

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CiteScore
3.50
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