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• W2321814792 endingPage "8727" @default.
• W2321814792 startingPage "8715" @default.
• W2321814792 abstract "Copper-based nanoparticles are an important class of materials with applications as catalysts, conductive inks, and antimicrobial agents. Environmental and safety issues are particularly important for copper-based nanomaterials because of their potential large-scale use and their high redox activity and toxicity reported from in vitro studies. Elemental nanocopper oxidizes readily upon atmospheric exposure during storage and use, so copper oxides are highly relevant phases to consider in studies of environmental and health impacts. Here we show that copper oxide nanoparticles undergo profound chemical transformations under conditions relevant to living systems and the natural environment. Copper oxide nanoparticle (CuO-NP) dissolution occurs at lysosomal pH (4-5), but not at neutral pH in pure water. Despite the near-neutral pH of cell culture medium, CuO-NPs undergo significant dissolution in media over time scales relevant to toxicity testing because of ligand-assisted ion release, in which amino acid complexation is an important contributor. Electron paramagnetic resonance (EPR) spectroscopy shows that dissolved copper in association with CuO-NPs are the primary redox-active species. CuO-NPs also undergo sulfidation by a dissolution-reprecipitation mechanism, and the new sulfide surfaces act as catalysts for sulfide oxidation. Copper sulfide NPs are found to be much less cytotoxic than CuO-NPs, which is consistent with the very low solubility of CuS. Despite this low solubility of CuS, EPR studies show that sulfidated CuO continues to generate some ROS activity due to the release of free copper by H2O2 oxidation during the Fenton-chemistry-based EPR assay. While sulfidation can serve as a natural detoxification process for nanosilver and other chalcophile metals, our results suggest that sulfidation may not fully and permanently detoxify copper in biological or environmental compartments that contain reactive oxygen species." @default.
• W2321814792 created "2016-06-24" @default.
• W2321814792 creator A5012413299 @default.
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• W2321814792 creator A5077124777 @default.
• W2321814792 creator A5084812584 @default.
• W2321814792 date "2013-09-20" @default.
• W2321814792 modified "2023-09-23" @default.
• W2321814792 title "Biological and Environmental Transformations of Copper-Based Nanomaterials" @default.
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• W2321814792 doi "https://doi.org/10.1021/nn403080y" @default.
• W2321814792 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3894052" @default.
• W2321814792 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24032665" @default.
• W2321814792 hasPublicationYear "2013" @default.
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