Automated High-Resolution Semi-Preparative Gradient Recycling Liquid Chromatography: Principles, Design, and Applications

LCGC Europe Pub Date : 2021-11-01 DOI:10.56530/lcgc.eu.fl3785e9

F. Gritti

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引用次数: 1

Abstract

A semi-preparative twin-column recycling liquid chromatography (TCRLC) process was extended from isocratic to gradient elution mode. The main separation challenge is when the sample mixture contains early, nearly coeluting, and late impurities, all at the same time. To further improve classical isocratic TCRLC, the gradient TCRLC (GTCRLC) process was implemented with a 2-position 4-port valve in order to better shave the targeted sample from all these impurities. Prior to fully resolving the target compound(s) from the closest impurities by classical isocratic TCRLC, the added valve enabled full elimination by gradient elution mode of not only the early impurities but also any highly retained late impurities that could contaminate the collected fractions of the target compound(s). This GTCRLC process was entirely automated regarding the initial gradient applied, the recycling conditions, and the actuation times of the two valves. The GTCRLC process was applied for the isolation of a single polycyclic aromatic hydrocarbon (PAH), chrysene, present in a complex PAH mixture. In addition, the GTCRLC process was successfully applied to clean vitamins D2 and D3 from a milk extract and to baseline resolve them.

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自动化高分辨率半制备梯度回收液相色谱:原理，设计和应用

将半制备双柱循环液相色谱(TCRLC)工艺从等压模式扩展到梯度洗脱模式。主要的分离挑战是当样品混合物同时含有早期、近溶出和晚期杂质时。为了进一步改进经典等压TCRLC，采用2位4端口阀实现梯度TCRLC (GTCRLC)工艺，以便更好地从目标样品中去除所有这些杂质。在用经典的等密度TCRLC从最接近的杂质中完全分离目标化合物之前，添加的阀不仅可以通过梯度洗脱模式完全消除早期杂质，还可以完全消除可能污染目标化合物收集部分的任何高度保留的晚期杂质。这个GTCRLC过程在初始梯度、循环条件和两个阀门的驱动时间方面完全自动化。采用GTCRLC法分离了复杂多环芳烃混合物中单一的多环芳烃(PAH)，即蒽。此外，GTCRLC工艺成功地应用于牛奶提取物中维生素D2和D3的清洁和基线解析。

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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LCGC Europe

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