核壳柱技术的快速发展：准确测量填充有 4.6 至 1.3μm 表面多孔颗粒的小口径柱的固有柱效。

Rapid development of core-shell column technology: accurate measurements of the intrinsic column efficiency of narrow-bore columns packed with 4.6 down to 1.3 μm superficially porous particles.

机构信息

Department of Chemistry, University of Tennessee, Knoxville, TN 37996-1600, USA.

出版信息

J Chromatogr A. 2014 Mar 14;1333:60-9. doi: 10.1016/j.chroma.2014.01.061. Epub 2014 Jan 31.

DOI:10.1016/j.chroma.2014.01.061

Abstract

The intrinsic heights equivalent to a theoretical plate (HETPs) of 31 narrow-bore and wide-bore columns packed with four different brands of core-shell particles were accurately measured on an optimized vHPLC instrument (1290 Infinity system) that has an extra-column volume variance of 13.6±0.3 μL(2). These results were derived from the slopes of the linear plots of the apparent plate heights of each column versus the reciprocal of (1+k')(2) for seven homologous compounds with a linear regression coefficient larger than 0.999. The results show that the kinetic performance of narrow-bore columns packed with core-shell particles increases almost linearly with decreasing particle diameter. The optimum reduced plate heights increase slightly from 1.6 to 1.9 with decreasing particle sizes from 4.6 to 1.3 μm. This confirms that wide-bore columns provide better efficiencies than narrow-bore columns.

摘要

准确测量了 31 根填充有四种不同品牌核壳颗粒的窄径和宽径柱的固有理论塔板高度（HETP），这些柱子在经过优化的 vHPLC 仪器（1290 Infinity 系统）上进行了测试，该仪器的柱外体积变化为 13.6±0.3 μL(2)。这些结果源自于每个柱的表观塔板高度相对于（1+k'）(2)的倒数的线性图的斜率，其中七种同系物的线性回归系数大于 0.999。结果表明，填充有核壳颗粒的窄径柱的动力学性能几乎随粒径的减小而呈线性增加。最佳的减小塔板高度从 1.6 略微增加到 1.9，粒径从 4.6 减小到 1.3 μm。这证实了宽径柱比窄径柱提供了更好的效率。

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核壳柱技术的快速发展：准确测量填充有 4.6 至 1.3μm 表面多孔颗粒的小口径柱的固有柱效。

Rapid development of core-shell column technology: accurate measurements of the intrinsic column efficiency of narrow-bore columns packed with 4.6 down to 1.3 μm superficially porous particles.

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