Considerations for method development and method translation in capillary liquid chromatography: A tutorial

Journal of chromatography open Pub Date : 2024-11-01 DOI:10.1016/j.jcoa.2024.100190

Eliza K. Hanson, Samuel W. Foster, Christopher Piccolo, James P. Grinias

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Abstract

HPLC remains one of the most widely used measurement techniques for chemical analysis. Capillary LC, which utilizes narrow diameter columns operated at lower flow rates than analytical-scale LC, continues to gain adoption based on its reduced mobile phase consumption and increased sensitivity when coupled to MS detection. This tutorial offers practical insights into the most critical aspects of translating analytical-scale separations to the capillary scale. The selection of pumping systems, detectors, and the potential for performance loss due to extra-column effects are examined within the context of separations using columns with inner diameters ≤ 0.3 mm. Column choices within this diameter range are also detailed, both in terms of stationary phase support options and general commercial availability. The impact of these various factors on the effective development/translation of LC methods down to flow rates under 10 µL/min is described to provide readers with a basis for implementing these strategies within their own analytical workflows.

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毛细管液相色谱方法开发和方法转换的注意事项：教程

高效液相色谱法仍然是化学分析中应用最广泛的测量技术之一。与分析级液相色谱相比，毛细管液相色谱使用窄直径色谱柱，流速较低，其流动相消耗量更少，与质谱检测联用时灵敏度更高，因此继续得到广泛应用。本教程就将分析级分离转化为毛细管级分离的最关键方面提供了实用的见解。在使用内径≤ 0.3 毫米的色谱柱进行分离时，将考察泵系统、检测器的选择以及柱外效应可能导致的性能损失。此外，还从固定相支持选项和一般商业可用性两方面详细介绍了在此直径范围内的色谱柱选择。介绍了这些不同因素对有效开发/转化流速低于 10 µL/min 的液相色谱方法的影响，为读者在自己的分析工作流程中实施这些策略提供了依据。

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