Journal
CHEMOSPHERE
Volume 333, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2023.138939
Keywords
Environmental analysis; Nano-plastics; Aggregation; Raman spectrometer; Pyrolysis gas chromatography-quadrupole-time; of flight mass spectrometer
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This study investigated the flocculation and/or sedimentation of polystyrene nano-plastics (PS-NPs) in salt solutions and protein solutions. The results showed that salt solutions significantly promoted the aggregation of PS-NPs, while protein-coated PS-NPs also aggregated. Moreover, 500 nm PS-CHO particles settled into sedimentation without flocculation. Therefore, Raman spectrometry is suitable for analyzing assembled PS-NPs but not normal PS-NPs.
Aqueous environments are generally thought to be a source of pooling and re-distribution for both micro-plastics (MPs) and nano-plastics (NPs); however, significantly less data on NPs than MPs have been reported. The occurrence of salts, proteins, and other organic matter may promote or inhibit the aggregation of NPs to form agglomeration particles, making their detection more difficult. In this study, 80 and 500 nm polystyrene nano-plastics (PS-NPs) modified by four different functional groups (PS-Bare, PS-COOH, PS-NH2, and PS-CHO-500 nm) were selected to mimic the flocculation and/or sedimentation of NPs in salts (NaCl, CaCl2, and Na2SO4) and protein solutions. The results showed that the 80 nm PS-NPs are only colloidal in pure water. All four strong electrolyte solutions that were tested significantly promoted the aggregation of PS-NPs, including those that were protein-coated. In addition, 500 nm PS-CHO did not flocculate but gradually settled into sedimentation. Therefore, Raman spectrometry can be used to analyze assembled PS-NPs, but is not suitable for analyzing normal PS-NPs. By combining fractal morphology, this study provides insight into the comprehensive analysis of PS-NPs in water solutions, including the digestion of biological samples.
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