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Analysis of polyethylene microplastics in environmental samples, using a thermal decomposition method
Analysis of polyethylene microplastics in environmental samples, using a thermal decomposition method
Authors
Dümichen, Erik
Braun, Ulrike
Brand, Kathrin
Jekel, Martin
Senz, Rainer
Editor
Containing Item
Water Research
85 (2015)
85 (2015)
Keywords
Mikroplastikpartikel
Citation
Dümichen, Erik, Claus Gerhard Bannick, Anne-Kathrin Barthel, Ulrike Braun, Kathrin Brand, Martin Jekel and Rainer Senz, 2015. Analysis of polyethylene microplastics in environmental samples, using a thermal decomposition method. Water Research [online]. 2015. vol. 85 (2015). DOI 10.60810/openumwelt-281. Verfügbar unter: https://openumwelt.de/handle/123456789/7852
Abstract english
Small polymer particles with a diameter of less than 5 mm called microplastics find their way into the environment from polymer debris and industrial production. Therefore a method is needed to identify and quantify microplastics in various environmental samples to generate reliable concentration values. Such concentration values, i.e. quantitative results, are necessary for an assessment of microplastic in environmental media. This was achieved by thermal extraction in thermogravimetric analysis (TGA), connected to a solid-phase adsorber. These adsorbers were subsequently analysed by thermal desorption gas chromatography mass spectrometry (TDS-GC-MS). In comparison to other chromatographic methods, like pyrolyse gas chromatography mass spectrometry (Py-GC-MS), the relatively high sample masses in TGA (about 200 times higher than used in Py-GC-MS) analysed here enable the measurement of complex matrices that are not homogenous on a small scale. Through the characteristic decomposition products known for every kind of polymer it is possible to identify and even to quantify polymer particles in various matrices. Polyethylene (PE), one of the most important representatives for microplastics, was chosen as an example for identification and quantification.Quelle: http://www.sciencedirect.com