Quantitative analysis of poly- and perfluoroalkyl compounds in water matrices using high resolution mass spectrometry: Optimization for a laser diode thermal desorption method

[Display omitted] •We analyzed poly- and perfluoroalkyl compounds in environmental samples.•Laser diode thermal desorption was combined to orbitrap high resolution MS.•Analysis time was reduced to less than 20s, ∼50 times faster than LC.•The proposed LDTD procedure shows very low blanks levels for P...

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Veröffentlicht in:	Analytica chimica acta 2015-06, Vol.881, p.98-106
Hauptverfasser:	Munoz, Gabriel, Vo Duy, Sung, Budzinski, Hélène, Labadie, Pierre, Liu, Jinxia, Sauvé, Sébastien
Format:	Artikel
Sprache:	eng
Schlagworte:	Chromatography, High Pressure Liquid - methods Environmental Sciences Experimental design Fluorocarbons - analysis Fluorocarbons - chemistry Fresh Water - analysis Fresh Water - chemistry High resolution accurate mass High-Throughput Screening Assays Laser diode thermal desorption Lasers Limit of Detection Orbitrap Perfluorinated Reproducibility of Results Solid Phase Extraction - methods Tandem Mass Spectrometry - methods Waste Water - analysis Waste Water - chemistry Wastewater Water Pollutants, Chemical - analysis
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container_title	Analytica chimica acta
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creator	Munoz, Gabriel Vo Duy, Sung Budzinski, Hélène Labadie, Pierre Liu, Jinxia Sauvé, Sébastien
description	[Display omitted] •We analyzed poly- and perfluoroalkyl compounds in environmental samples.•Laser diode thermal desorption was combined to orbitrap high resolution MS.•Analysis time was reduced to less than 20s, ∼50 times faster than LC.•The proposed LDTD procedure shows very low blanks levels for PFASs. An alternative analysis technique for the quantitation of 15 poly- and perfluoroalkyl substances (PFASs) in water matrices is reported. Analysis time between each sample was reduced to less than 20s, all target molecules being analyzed in a single run with the use of laser diode thermal desorption atmospheric pressure chemical ionization (LDTD/APCI) coupled with high resolution accurate mass (HRMS) orbitrap mass spectrometry. LDTD optimal settings were investigated using either one-factor-at-a-time or experimental design methodologies, while orbitrap parameters were optimized simultaneously by means of a Box–Behnken design. Following selection of an adequate sample concentration and purification procedure based on solid-phase extraction and graphite clean-up, the method was validated in an influent wastewater matrix. Environmentally significant limits of detection were reported (0.3–4ngL−1 in wastewater and 0.03–0.2ngL−1 in surface water) and out of the 15 target analytes, 11 showed excellent accuracies (±20% of the target values) and recovery rates (75–125%). The method was successfully applied to a selection of environmental samples, including wastewater samples in 7 locations across Canada, as well as surface and tap water samples from the Montreal region, providing insights into the degree of PFAS contamination in this area.
doi_str_mv	10.1016/j.aca.2015.04.015
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An alternative analysis technique for the quantitation of 15 poly- and perfluoroalkyl substances (PFASs) in water matrices is reported. Analysis time between each sample was reduced to less than 20s, all target molecules being analyzed in a single run with the use of laser diode thermal desorption atmospheric pressure chemical ionization (LDTD/APCI) coupled with high resolution accurate mass (HRMS) orbitrap mass spectrometry. LDTD optimal settings were investigated using either one-factor-at-a-time or experimental design methodologies, while orbitrap parameters were optimized simultaneously by means of a Box–Behnken design. Following selection of an adequate sample concentration and purification procedure based on solid-phase extraction and graphite clean-up, the method was validated in an influent wastewater matrix. Environmentally significant limits of detection were reported (0.3–4ngL−1 in wastewater and 0.03–0.2ngL−1 in surface water) and out of the 15 target analytes, 11 showed excellent accuracies (±20% of the target values) and recovery rates (75–125%). 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Environmentally significant limits of detection were reported (0.3–4ngL−1 in wastewater and 0.03–0.2ngL−1 in surface water) and out of the 15 target analytes, 11 showed excellent accuracies (±20% of the target values) and recovery rates (75–125%). 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An alternative analysis technique for the quantitation of 15 poly- and perfluoroalkyl substances (PFASs) in water matrices is reported. Analysis time between each sample was reduced to less than 20s, all target molecules being analyzed in a single run with the use of laser diode thermal desorption atmospheric pressure chemical ionization (LDTD/APCI) coupled with high resolution accurate mass (HRMS) orbitrap mass spectrometry. LDTD optimal settings were investigated using either one-factor-at-a-time or experimental design methodologies, while orbitrap parameters were optimized simultaneously by means of a Box–Behnken design. Following selection of an adequate sample concentration and purification procedure based on solid-phase extraction and graphite clean-up, the method was validated in an influent wastewater matrix. 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subjects	Chromatography, High Pressure Liquid - methods Environmental Sciences Experimental design Fluorocarbons - analysis Fluorocarbons - chemistry Fresh Water - analysis Fresh Water - chemistry High resolution accurate mass High-Throughput Screening Assays Laser diode thermal desorption Lasers Limit of Detection Orbitrap Perfluorinated Reproducibility of Results Solid Phase Extraction - methods Tandem Mass Spectrometry - methods Waste Water - analysis Waste Water - chemistry Wastewater Water Pollutants, Chemical - analysis
title	Quantitative analysis of poly- and perfluoroalkyl compounds in water matrices using high resolution mass spectrometry: Optimization for a laser diode thermal desorption method
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