Determination of carbohydrate- and lignin-derived components in complex effluents from cellulose processing by capillary electrophoresis with electrospray ionization-mass spectrometric detection |
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Authors: | Bogolitsyna Anna Becker Manuel Dupont Anne-Laurence Borgards Andrea Rosenau Thomas Potthast Antje |
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Affiliation: | Department of Chemistry and Christian Doppler Laboratory "Advanced cellulose chemistry and analytics", University of Natural Resources and Life Sciences, Muthgasse 18, A-1190 Vienna, Austria. |
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Abstract: | Degradation products from lignocellulosic materials receive increasing attention due to the continuously growing interest in their utilization. The inherent structural variance of lignocellulosics combined with the intricacy of lignocellulosic processing (e.g. pulping of wood and bleaching of cellulosic pulps) and the complexity of degradation processes occurring therein result in rather complex mixtures in the process streams and effluents that contain a large quantity of structurally different degradation products. This is true for most processing steps, but also for degradation reactions occurring during aging of lignocellulosic materials, such as paper, cellulosic tissue or textiles. In order to render such mixtures better analytically accessible than hitherto possible a CE-ESI-MS method was established for the simultaneous determination of aliphatic carboxylic acids from the degradation of (hemi)celluloses and aromatic compounds from lignin degradation. CE and ESI-MS parameters have been optimized towards sensitivity and good reproducibility. The method was tested in two real-world scenarios: the determination of major components in effluents from bleaching stages in the pulp and paper industry, and the analysis of degradation products in extracts of naturally aged papers. The advantages and drawbacks of this approach are critically discussed. |
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Keywords: | CE, capillary electrophoresis ESI-MS, electrospray ionization-mass spectrometry GC–MS, gas chromatography–mass spectrometry BGE, background electrolyte LMM, low molecular mass MT, migration time PA, peak area |
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