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Article Abstract
The role of microplastics (MPs) in transforming coexisting contaminants in aquatic environments is poorly understood. Herein, the mediation of polystyrene (PS) MPs on the phototransformation of silver ions (Ag) was investigated. Ag-based nanoparticles (21.0-177.0 nm) formed from Ag in the presence of PS MPs (8.3-41.9 μm) after 40-day natural light and 96-h UV light irradiation, as detected by single-particle inductively coupled plasma mass spectrometry (sp-ICP-MS). Using a successive dissolution method, the species were identified as Ag, AgO, and AgS nanoparticles. After 96 h of UV irradiation, Ag was the main nanoparticle species (93.4%), accounting for 78.0% of the total Ag. Both the MPs surface and the liquid phase were confirmed as Ag nanoparticle formation sites, whereas AgO and AgS were mainly formed in the liquid phase. Free radicals (superoxide radicals, oxygen-centered persistent free radicals) and oxygen-containing groups (aldehyde groups) on the MPs surface and dissolved organic matter in the liquid phase played crucial roles in Ag nanoparticle formation. Furthermore, sulfur species (e.g., S and SO) in the liquid phase were responsible for the AgS nanoparticle formation. These findings are crucial for better understanding the environmental fate, geochemical cycle, and risk of both MPs and Ag.
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| http://dx.doi.org/10.1021/acs.est.5c03971 | DOI Listing |
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