Elemental and morphological diversity of individual magnetic particles from urban surfaces: implications for adverse health outcomes

This journal contribution is published Open Access by the publisher. Follow the DOI link to retrieve a copy of the full text. This work was partially supported by the National Science Foundation through the Nanotechnology Collaborative Infrastructure Southwest (ECCS-2025490; ECCS-1542160), Nanosystems Engineering Research Center on Nanotechnology-Enabled Water Treatment (EEC-1449500) and other grants (CBET-2016501). Research reported was partially supported by the National Institute of Environmental Health Sciences through the Metals and metal mixtures: Cognitive aging, remediation and exposure sources (MEMCARE) center [P42ES030990]. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. Dr. Jonas Wielinski acknowledges the Swiss National Science Foundation for funding this research under the Postdoctoral Mobility program (Project No. P500PN_202844). Zhaobo Zhang and Nathan Zhang assisted with material collection and data analysis, respectively. Additional support is provided from the Fulton Chair of Environmental Engineering. We acknowledge the use of instruments in the Eyring Materials Center core facilities at Arizona State University.