Optimizing conditions in online RPLC × SFC for the analysis of complex samples containing neutral compounds: Solving injection issues

•Many relevant parameters were considered for online RPLC × SFC separations.•The impact of hydro-organic injection solvents on SFC peak shape has been studied.•Reducing the ID column from 3.0 mm to 2.1 mm resulted in better SFC peak shapes.•Adding the SFC co-solvent after the valve significantly imp...

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Bibliographic Details
Published in:Journal of Chromatography A 2025-01, Vol.1739, p.465518, Article 465518
Main Authors: Devaux, Jason, Mignot, Mélanie, Sarrut, Morgan, Limousin, Guillaume, Afonso, Carlos, Heinisch, Sabine
Format: Article
Language:English
Subjects:
acetonitrile
biofuels
carbon dioxide
Injection effect
Injection solvent
methanol
microalgae
Microalgae bio-oil
Online RPLC × SFC
reversed-phase liquid chromatography
solvents
supercritical fluid chromatography
Valve configuration
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Summary:•Many relevant parameters were considered for online RPLC × SFC separations.•The impact of hydro-organic injection solvents on SFC peak shape has been studied.•Reducing the ID column from 3.0 mm to 2.1 mm resulted in better SFC peak shapes.•Adding the SFC co-solvent after the valve significantly improves the peak shapes.•A very low SFC initial composition is detrimental for peak shapes. The online combination of reversed-phase liquid chromatography and supercritical fluid chromatography (online RPLC × SFC) is an attractive technique for the characterization of complex samples containing neutral compounds as the two techniques are highly complementary, especially with a polar stationary phase in supercritical fluid chromatography (SFC). However, the setup is challenging due to the presence of hydro-organic solvents in RPLC, which become injection solvent in SFC. In this study, numerous key experimental parameters were identified and found to have a major effect on peak shape under RPLC × SFC conditions. These parameters included the organic modifier in reversed-phase liquid chromatography (RPLC), the co-solvent in SFC, the gradient conditions and the column ID in SFC, the configuration of the valve and finally, the injection volume in SFC that should be maximized. Acetonitrile (ACN) in RPLC, a mixture of ACN and methanol (MeOH) (50/50, v/v) in SFC, a minimum initial composition of 5% B in SFC, column IDs of 1.0 mm and 2.1 mm in RPLC and SFC respectively and flushing the interface loops with pure CO2 while adding the co-solvent after the valve, are all conditions that have been identified as perfectly suitable for online RPLC × SFC. They were successfully applied to the online RPLC × SFC separations of microalgae bio-oil samples. Despite unusual injection conditions, the peaks were symmetrical over the entire chromatogram, leading to a high separation power.
ISSN:0021-9673
DOI:10.1016/j.chroma.2024.465518