S
Stig Pedersen-Bjergaard
Researcher at University of Copenhagen
Publications - 240
Citations - 12806
Stig Pedersen-Bjergaard is an academic researcher from University of Copenhagen. The author has contributed to research in topics: Extraction (chemistry) & Membrane. The author has an hindex of 57, co-authored 227 publications receiving 11283 citations. Previous affiliations of Stig Pedersen-Bjergaard include University of Waterloo & Technical University of Denmark.
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Liquid-liquid-liquid microextraction for sample preparation of biological fluids prior to capillary electrophoresis.
TL;DR: Liquid-liquid-liquid microextraction (LLLME) served as a technique for sample cleanup since large molecules, acidic compounds, and neutral components were not extracted into the acceptor phase.
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Electrokinetic migration across artificial liquid membranes: New concept for rapid sample preparation of biological fluids
TL;DR: Electrokinetic migration across thin artificial liquid membranes may be an interesting tool for future isolation within chemical analysis and may serve as an efficient tool for controlling the transport selectivity.
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Developments in hollow fibre-based, liquid-phase microextraction
TL;DR: A recent review as discussed by the authors focuses on basic extraction principles, technical set-up, recovery, enrichment, extraction speed, selectivity, applications, and future trends in hollow fibre-based liquid-phase microextraction.
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Liquid-phase microextraction with porous hollow fibers, a miniaturized and highly flexible format for liquid-liquid extraction.
TL;DR: In this review, LPME will be discussed with focus on extraction principles, historical development, fundamental theory, and performance.
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Environmental and bioanalytical applications of hollow fiber membrane liquid-phase microextraction: a review.
TL;DR: Important applications of LPME are reviewed with special focus on bioanalytical and environmental chemistry, and a new possible direction is covered namely electromembrane extraction, where analytes are extracted through the SLM and into the acceptor phase by the application of electrical potentials.