个人简介

Janusz Pawliszyn's research focuses on the development and application of state-of-the-art, integrated and automated analytical methods and instrumentation, for on-site analysis and monitoring. He is a Fellow of the Royal Society of Canada, University Professor and holds the Canada Research Chair and NSERC Industrial Research Chair in New Analytical Methods and Technologies. Solid Phase Microextraction (SPME) BioSPME SPME Cold Fibre Thin Film Membranes Thin Film Brushes Thin Film and SPME Fibre Needle Trap, Thin Film and SPME Canada Research Chair, 2003-present Industrial Research Chair, 1994-present Associate Editor of Journal of Pharmaceutical Analysis, 2011-present Editor of Analytica Chemica Acta, 2007-present Contributing Editor of Trends in Analytical Chemistry (TrAC), 2000-present Executive Committee, 2013-present IUPAC Orange Book, Extraction Chapter, 2012-15 Member of the College of Reviewers at CFI, 2003-15 Editorial Board Member of the Journal of Microcolumn Separations, 1991-2015 Editor in Chief of Comprehensive Sampling and Sample Preparation (Elsevier), 2009-14 Advanced Health Technologies Panel, ORF, 2012-13 NSERC DG Evaluation Team, 2009-13 Editorial Board Member of Chemia Analityczna, 2008-09 1982 Ph.D. Analytical Chemistry, Southern Illinois University, Carbondale, IL 1978 M.S. Organic Chemistry, Technical University of Gdansk, Poland 1977 B.Sc. Engineering, Technical University of Gdansk, Poland

研究领域

The primary focus of Janusz Pawliszyn's research program is the design of highly automated and integrated instrumentation for the isolation of analytes from complex matrices and the subsequent separation, identification and determination of these species. The primary separation tools used by his group are Gas Chromatography, Liquid Chromatography and Capillary Electrophoresis coupled to variety of detections systems, including a range of mass spectrometry techniques. Currently his research is focusing on the elimination of organic solvents from the sample preparation step to facilitate on-site monitoring and in-vivo analysis. Several alternative techniques to solvent extraction are investigated including the use of coated fibers, packed needles, membranes and supercritical fluids. Janusz Pawliszyn is exploring the application of the computational and modeling techniques to enhance performance of sample preparation, chromatographic separations and detection. The major area of his interest involves the development and application of imaging detection techniques for microcolumn chromatography, capillary electrophoresis and micro chip separation devices.

The primary focus of Professor Pawliszyn's research program is the design of highly automated and integrated instrumentation for the isolation of analytes from complex matrices and the subsequent separation, identification and determination of these species. The primary separation tools used by his group are Gas Chromatography, Liquid Chromatography and Capillary Electrophoresis coupled to variety of detections systems, including range of mass spectrometry techniques. Currently his research is focusing on elimination of organic solvents from the sample preparation step to facilitate on-site monitoring and in-vivo analysis. Several alternative techniques to solvent extraction are investigated including use of coated fibers, packed needles, membranes and supercritical fluids. Dr. Pawliszyn is exploring application of the computational and modeling techniques to enhance performance of sample preparation, chromatographic separations and detection. The major area of his interest involves the development and application of imaging detection techniques for microcolumn chromatography, capillary electrophoresis and micro chip separation devices.

近期论文

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Numerical Modeling of Solid-Phase Microextraction: Binding Matrix Effect on Equilibrium Time Behavior in Multicomponent Mixtures, A. Nazmul, L. Ricardez-Sandoval and J. Pawliszyn, Anal. Chem. 87, 9846-9854 (2015). Capturing Plant Metabolome with Direct-Immersion in Vivo Solid Phase Microextraction of Plant Tissues, S. Risticevic, E. Silva, J. DeEll, J. Cochran and J. Pawliszyn, Anal. Chem. 88, 1266–1274 (2016). Development of a carbon mesh supported thin film microextraction membrane as a means to lower the detection limits of benchtop and portable GC-MS instrumentation, J. Grandy, E. Boyaci and J. Pawliszyn, Anal. Chem. 88, 1760–1767 (2016). Biocompatible Solid-Phase Microextraction Nanoelectrospray Ionization: An Unexploited Tool in Bioanalysis, G. Gómez-Ríos, N. Reyes-Garcés, E. Boyaci, B. Bojko and J. Pawliszyn, Anal. Chem. 88, 1259–1265 (2016). Cinnamaldehyde Characterization as an Antibacterial Agent toward E. coli Metabolic Profile Using 96-Blade Solid-Phase Microextraction Coupled to Liquid Chromatography–Mass Spectrometry, F. Mousavi, B. Bojko, V. Bessonneau and J. Pawliszyn, J. Proteome Res. 15, 963–975 (2016). Fast quantitation of target analytes in small volumes of complex samples by matrix-compatible Solid Phase Microextraction devices, H. Piri-Moghadam, F. Ahmadi, G. Gómez-Ríos, E. Boyacı, N. Reyes-Garcés, A. Aghakhani, B. Bojko and J. Pawliszyn, Agewandte Chemie 55, 7510-7514 (2016).