High-Temperature Liquid Chromatography and the Hyphenation with Mass Spectrometry Using High-Pressure Electrospray Ionization.

Q3 Physics and Astronomy

Mass spectrometry Pub Date : 2019-01-01 Epub Date: 2019-08-26 DOI:10.5702/massspectrometry.S0079

Lee Chuin Chen

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引用次数: 6

Abstract

Increasing the operating temperature of the liquid chromatography (LC) column has the same effect as reducing the diameter of the packing particles on minimizing the contribution of C-term in the van Deemter equation, flattening the curve of plate height vs. linear velocity in the high-speed region, thus allowing a fast LC analysis without the loss of plate count. While the use of smaller particles requires a higher pumping pressure, operating the column at higher temperature reduces the pressure due to lower liquid viscosity. At present, the adoption of high-temperature LC lags behind the ultra-high-pressure LC. Nevertheless, the availability of thermally stable columns has steadily improved and new innovations in this area have continued to emerge. This paper gives a brief review and updates on the recent advances in high-temperature liquid chromatography (HTLC). Recent efforts of hyphenating the capillary HTLC with mass spectrometry via a super-atmospheric pressure electrospray ionization is also reported.

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高温液相色谱及高压电喷雾电离联用质谱法。

提高液相色谱(LC)柱的工作温度与减小填料颗粒的直径对最小化van Deemter方程中c项的贡献具有相同的效果，在高速区域使板高度与线速度的曲线变平，从而允许快速LC分析而不损失板计数。虽然使用较小的颗粒需要较高的泵送压力，但由于液体粘度较低，在较高温度下操作柱会降低压力。目前，高温LC的采用落后于超高压LC。然而，热稳定柱的可用性稳步提高，在这一领域的新创新不断涌现。本文对高温液相色谱技术的最新进展作了简要的综述。本文还报道了利用超大气压电喷雾电离技术将毛细管高效液相色谱与质谱分离的最新研究成果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mass spectrometry Physics and Astronomy-Instrumentation

CiteScore

1.90

自引率

0.00%

发文量