Development of on-line comprehensive two-dimensional liquid chromatography method for the separation of biomass compounds

Abstract

Comprehensive on-line two-dimensional liquid chromatography (on-line LC×LC) was used for the characterization of bio-oils obtained by fast pyrolysis of lignocellulosic biomass. The resulting bio-oil contains a large number of oxygenated chemical families and must therefore be upgraded before being used as drop-in transportation biofuels. The good knowledge of its complex composition is essential for optimizing the mandatory bio-oil upgrading process to biofuels, thereby requiring powerful separation techniques designed to be hyphenated to mass spectrometry detection (LC×LC–MS). In this study, reversed phase conditions were optimized in both dimensions for the RPLC×RPLC separation of the aqueous fraction of bio-oils. The first step of method development consisted in searching for a suitable set of RP-conditions via the screening of a large number of RP-systems (made up of different stationary phases and/or mobile phases and/or temperature). The practical peak capacity and the degree of orthogonality were calculated for a sample of 38 representative compounds, both descriptors having been considered as selection criterion. Two different couplings were chosen and evaluated for the RPLC×RPLC separation of the 38 representative compounds. The best of both, in terms of real practical peak capacity, was further successfully applied to the separation of the aqueous phase of a partially dehydroxygenated bio-oil.