颗粒孔径在反相液相色谱保留和选择性中的重要性。

Importance of Particle Pore Size in Determining Retention and Selectivity in Reversed Phase Liquid Chromatography.

机构信息

Advanced Materials Technology, Inc., 3521 Silverside Road, Wilmington, DE, 19810, USA.

Rowan University, Department of Chemistry & Biochemistry, 201 Mullica Hill Rd., Glassboro, NJ 08028, USA.

出版信息

J Chromatogr A. 2020 Dec 20;1634:461678. doi: 10.1016/j.chroma.2020.461678. Epub 2020 Nov 10.

DOI:10.1016/j.chroma.2020.461678

PMID:33221655

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7727441/

Abstract

Column selection often centers on the identification of a stationary phase that increases resolution for a certain class of compounds. While gains in resolution are most affected by selectivity of the stationary phase or modifications of the mobile phase, enhancements can still be made with an intentional selection of the packing material's microstructure. Unrestricted mass transfer into the particle's porous structure minimizes band broadening associated with hindered access to stationary phase. Increased efficiency, especially when operating above the optimal flow rates, can be gained if the pore size is significantly larger than the solvated analyte. Less studied are the effects of reduced access to pores due to physical hindrance and its impact on retention. This article explores the relationship between pore size and reversed phase retention, and specifically looks at a series of particle architectures with reversed phase and size exclusion modes to study retention associated with access to stationary phase surface area.

摘要

柱选择通常集中在识别固定相上，固定相可以提高某一类化合物的分辨率。虽然分辨率的提高主要受固定相的选择性或流动相的修饰的影响，但通过有目的地选择填充材料的微观结构仍然可以进行改进。允许物质不受限制地进入颗粒的多孔结构，可以最大限度地减少与固定相难以进入相关的带宽展宽。如果孔径明显大于被分析物的溶剂化尺寸，那么在高于最佳流速下操作时，可以获得更高的效率。然而，由于物理阻碍导致进入孔的通道减少及其对保留的影响，其相关研究较少。本文探讨了孔径与反相保留之间的关系，并特别研究了一系列具有反相和尺寸排阻模式的颗粒结构，以研究与进入固定相表面积相关的保留。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3964/7727441/d40a03265eb5/nihms-1645388-f0001.jpg

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