加压热水的溶剂化特性及其在色谱中的应用

T. M. Pawlowski, C. Poole
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引用次数: 58

摘要

用色谱法研究了75-180°C范围内温度对加压水溶剂化性能的影响,分析了多孔聚合物吸附剂plrp - s100上不同基团的化合物。采用溶剂化参数模型作为定量比较温度和溶剂组成变化对流动相洗脱强度和选择性影响的基础。温度升高对水溶剂化性质的主要影响是降低水的内聚力和氢键相互作用的能力。然而,即使在180°C的温度下,与可混溶有机溶剂的水相混合物相比,热水仍然保留了足够的室温特性,在反相色谱中仍然是一种相对较弱的洗脱溶剂。乙腈、甲醇和丙烯-2-醇的选择性随组成变化的变化在数量上不同于加压水的温度变化,这表明对于方法开发来说,这两个过程是互补的,而不是冗余的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Solvation characteristics of pressurized hot water and its use in chromatography
The influence of temperature in the range 75–180 °C on the solvation properties of pressurized water is studied by use of chromatography for a varied group of compounds on a porous polymer sorbent PLRP-S 100. The solvation parameter model is used as the basis of a quantitative comparison of the influence of temperature and solvent composition variation on the elution strength and selectivity of the mobile phase. The predominant influence of increasing temperature on the solvation properties of water is to reduce its cohesion and capacity for hydrogen-bond interactions. Even at 180 °C, however, hot water retains sufficient of its room temperature properties to remain a relatively weak eluting solvent in reversed-phase chromatography compared with aqueous mixtures of miscible organic solvents. Changes in selectivity accompanying composition variation for acetonitrile, methanol, and propan-2-ol are quantitatively different from those demonstrated for temperature variation of pressurized water, indicating that for method development the two processes are complementary rather than redundant.
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