Jonker_2016_J.Chromatogr.A_1462_100

Reference

Title : Gas chromatography fractionation platform featuring parallel flame-ionization detection and continuous high-resolution analyte collection in 384-well plates - Jonker_2016_J.Chromatogr.A_1462_100
Author(s) : Jonker W , Clarijs B , de Witte SL , van Velzen M , de Koning S , Schaap J , Somsen GW , Kool J
Ref : Journal of Chromatography A , 1462 :100 , 2016
Abstract :

Gas chromatography (GC) is a superior separation technique for many compounds. However, fractionation of a GC eluate for analyte isolation and/or post-column off-line analysis is not straightforward, and existing platforms are limited in the number of fractions that can be collected. Moreover, aerosol formation may cause serious analyte losses. Previously, our group has developed a platform that resolved these limitations of GC fractionation by post-column infusion of a trap solvent prior to continuous small-volume fraction collection in a 96-wells plate (Pieke et al., 2013 [17]). Still, this GC fractionation set-up lacked a chemical detector for the on-line recording of chromatograms, and the introduction of trap solvent resulted in extensive peak broadening for late-eluting compounds. This paper reports advancements to the fractionation platform allowing flame ionization detection (FID) parallel to high-resolution collection of a full GC chromatograms in up to 384 nanofractions of 7s each. To this end, a post-column split was incorporated which directs part of the eluate towards FID. Furthermore, a solvent heating device was developed for stable delivery of preheated/vaporized trap solvent, which significantly reduced band broadening by post-column infusion. In order to achieve optimal analyte trapping, several solvents were tested at different flow rates. The repeatability of the optimized GC fraction collection process was assessed demonstrating the possibility of up-concentration of isolated analytes by repetitive analyses of the same sample. The feasibility of the improved GC fractionation platform for bioactivity screening of toxic compounds was studied by the analysis of a mixture of test pesticides, which after fractionation were subjected to a post-column acetylcholinesterase (AChE) assay. Fractions showing AChE inhibition could be unambiguously correlated with peaks from the parallel-recorded FID chromatogram.

PubMedSearch : Jonker_2016_J.Chromatogr.A_1462_100
PubMedID: 27485151

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Citations formats

Jonker W, Clarijs B, de Witte SL, van Velzen M, de Koning S, Schaap J, Somsen GW, Kool J (2016)
Gas chromatography fractionation platform featuring parallel flame-ionization detection and continuous high-resolution analyte collection in 384-well plates
Journal of Chromatography A 1462 :100

Jonker W, Clarijs B, de Witte SL, van Velzen M, de Koning S, Schaap J, Somsen GW, Kool J (2016)
Journal of Chromatography A 1462 :100