用于毛细管和微流控液相色谱柱的5微米表面多孔颗粒的评估

Evaluation of 5 µm Superficially Porous Particles for Capillary and Microfluidic LC Columns.

作者信息

Grinias James P, Kennedy Robert T

机构信息

Department of Chemistry, University of Michigan, Ann Arbor, MI 48109, USA.

Department of Chemistry, University of Michigan, Ann Arbor, MI 48109, USA ; Department of Pharmacology, University of Michigan, Ann Arbor, MI 48109, USA.

出版信息

Chromatography (Basel). 2015 Sep;2(3):502-514. doi: 10.3390/chromatography2030502. Epub 2015 Aug 4.

DOI:10.3390/chromatography2030502

PMID:26714261

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4669065/

Abstract

Large-size (4-5 µm) superficially porous particles yield lower plate heights (e.g., the minimal reduced plate height or ≈ 1.5) than fully porous particles of a similar size when packed into large-bore columns. This property allows for better chromatographic performance without the higher pressures required for smaller particles. This study explores the use of such particles in microfluidic LC columns where materials and fitting pressure limits can constrain the size of particle used. The theoretically predicted performance improvements compared to fully porous particles were not demonstrated in capillary columns (with ≈ 2 for both particle types), in agreement with previous studies that examined smaller superficially porous particles. Microfluidic columns were then compared to capillary columns. Capillary columns significantly outperformed microfluidic columns due to imperfections imposed by microfluidic channel asymmetry and world-to-chip connection at the optimal flow rate; however, superficially porous particles packed in microfluidic LC columns had flatter plate height versus flow rate curves indicating potential for better performance at high reduced velocities.

摘要

当填充到大内径色谱柱中时，大尺寸（4 - 5 µm）的表面多孔颗粒比类似尺寸的全多孔颗粒具有更低的塔板高度（例如，最小折合塔板高度或≈1.5）。这一特性使得在不需要较小颗粒所需的较高压力的情况下，能获得更好的色谱性能。本研究探索了此类颗粒在微流控液相色谱柱中的应用，在微流控液相色谱柱中，材料和适配压力限制会限制所用颗粒的尺寸。与全多孔颗粒相比，理论预测的性能提升在毛细管柱中并未得到证实（两种颗粒类型的≈2），这与之前研究较小表面多孔颗粒的结果一致。然后将微流控柱与毛细管柱进行了比较。由于微流控通道不对称以及在最佳流速下芯片与外界连接存在缺陷，毛细管柱的性能显著优于微流控柱；然而，填充在微流控液相色谱柱中的表面多孔颗粒具有更平缓的塔板高度与流速曲线，表明在高折合流速下具有更好性能的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/845c/4669065/bdae3e4cc951/nihms739031f2.jpg

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用于毛细管和微流控液相色谱柱的5微米表面多孔颗粒的评估

Evaluation of 5 µm Superficially Porous Particles for Capillary and Microfluidic LC Columns.

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