期刊
JOURNAL OF CHROMATOGRAPHY A
卷 1583, 期 -, 页码 98-107出版社
ELSEVIER
DOI: 10.1016/j.chroma.2018.11.023
关键词
Two-dimensional chromatography; Reversed phase liquid chromatography; Hydrophilic interaction chromatography; Pulse elution (PE) modulation; Bypass-trapping interface
资金
- Hunan Provincial Natural Science Foundation of China [2018112251]
- National Natural Science Foundation of China [21775040, 21775041, 21575040]
In this work, a reversed phase liquid chromatography (RPLC) coupling to hydrophilic interaction chromatography (HILIC) system has been constructed, combining with pulsed elution reversed phase liquid chromatography (PE-RPLC) and HILIC to comprehensively analyze P. ginseng root extract, which is rich in saponins. By the application of pulsed elution (PE) modulation technique, the proposed RPLC x HILIC system allows the chromatographic separation to be optimized independently in both dimensions. In the first dimension (D-1), PE modulation is achieved by the separation of a complex mixture, such as P. ginseng root extract, with a PE gradient. This PE gradient contains a set of pulses where the solvent strength increases gradually. Thus, the modulation of D-1 eluent is realized by stepwise-pulse fractionation, rather than by a traditional two-dimensional interface. Furthermore, the number of fractions and the fractionated period can be regulated independently, which leads to independent adjustment of the separation cycle in the second dimension (D-2) separation without the loss of D-1 separation efficiency. To overcome the inherent solvent incompatibility of RPLC x HILIC, we introduced a newly developed trapping interface, equipped with bypass. The result indicates excellent separation of saponins in P. ginseng root extract. Compared with the traditional modulation method, the proposed RPLC x HILIC system has extreme flexibility, those modulation time could be regulated in a large range without re-optimizing the D-1 PE gradient. Worthily mentioned, the proposed RPLC x HILIC system shows excellent orthogonality, and 20% more peaks could be obtained with current method compared to the traditional value based modulation method. Independent regulation of both dimensions could enable the proposed modulation method to be widely applied for complex samples analysis in ordinary laboratory. (C) 2018 Elsevier B.V. All rights reserved.
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