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Meta-analysis of the hazards of microplastics in freshwaters using species sensitivity distributions
Cui, X., Yang, T., Li, Z., & Nowack, B. (2024). Meta-analysis of the hazards of microplastics in freshwaters using species sensitivity distributions. Journal of Hazardous Materials, 463, 132919 (9 pp.). https://doi.org/10.1016/j.jhazmat.2023.132919
Connecting global sustainability with circular product design
Desing, H. (2024). Connecting global sustainability with circular product design. In G. Brett Melles & C. Wölfel (Eds.), Design science and innovation. Design for a sustainable circular economy. Research and practice consequences (pp. 43-56). https://doi.org/10.1007/978-981-99-7532-7_3
Predicting environmental concentrations of nanomaterials for exposure assessment - a review
Keller, A. A., Zheng, Y., Praetorius, A., Quik, J. T. K., & Nowack, B. (2024). Predicting environmental concentrations of nanomaterials for exposure assessment - a review. NanoImpact, 33, 100496 (14 pp.). https://doi.org/10.1016/j.impact.2024.100496
Integrated data-driven cross-disciplinary framework to prevent chemical water pollution
Ateia, M., Sigmund, G., Bentel, M. J., Washington, J. W., Lai, A., Merrill, N. H., & Wang, Z. (2023). Integrated data-driven cross-disciplinary framework to prevent chemical water pollution. One Earth, 6(8), 952-963. https://doi.org/10.1016/j.oneear.2023.07.001
Opportunities of 5G mobile technology for climate protection in Switzerland
Bieser, J., Salieri, B., Hischier, R., & Hilty, L. M. (2023). Opportunities of 5G mobile technology for climate protection in Switzerland. In V. Wohlgemuth, S. Naumann, G. Behrens, H. K. Arndt, & M. Höb (Eds.), Progress in IS. Advances and new trends in environmental informatics. Environmental informatics and the UN sustainable development goals (pp. 217-235). https://doi.org/10.1007/978-3-031-18311-9_13
Probabilistic material flow analysis of eight commodity plastics in China: comparison between 2017 and 2020
Chen, L. Y., Liu, W. X., Yang, T., & Nowack, B. (2023). Probabilistic material flow analysis of eight commodity plastics in China: comparison between 2017 and 2020. Resources, Conservation and Recycling, 191, 106880 (14 pp.). https://doi.org/10.1016/j.resconrec.2023.106880
Balancing new approaches and harmonized techniques in nano- and microplastics research
Mitrano, D. M., Diamond, M. L., Kim, J. H., Tam, K. C., Yang, M., & Wang, Z. (2023). Balancing new approaches and harmonized techniques in nano- and microplastics research. Environmental Science and Technology Letters, 10(8), 618-621. https://doi.org/10.1021/acs.estlett.3c00359
Balancing new approaches and harmonized techniques in nano- and microplastics research
Mitrano, D. M., Diamond, M. L., Kim, J. H., Tam, K. C., Yang, M., & Wang, Z. (2023). Balancing new approaches and harmonized techniques in nano- and microplastics research. ACS ES&T Engineering, 3(7), 906-909. https://doi.org/10.1021/acsestengg.3c00220
Balancing new approaches and harmonized techniques in nano- and microplastics research
Mitrano, D. M., Diamond, M. L., Kim, J. H., Tam, K. C., Yang, M., & Wang, Z. (2023). Balancing new approaches and harmonized techniques in nano- and microplastics research. ACS ES&T Water, 3(8), 1972-1975. https://doi.org/10.1021/acsestwater.3c00282
Balancing new approaches and harmonized techniques in nano- and microplastics research
Mitrano, D. M., Diamond, M. L., Kim, J. H., Tam, K. C., Yang, M., & Wang, Z. (2023). Balancing new approaches and harmonized techniques in nano- and microplastics research. ACS Sustainable Chemistry and Engineering, 11(24), 8702-8705. https://doi.org/10.1021/acssuschemeng.3c03221
Balancing new approaches and harmonized techniques in nano- and microplastics research
Mitrano, D. M., Diamond, M. L., Kim, J. H., Tam, K. C., Yang, M., & Wang, Z. (2023). Balancing new approaches and harmonized techniques in nano- and microplastics research. Environmental Science and Technology, 57(24), 8841-8844. https://doi.org/10.1021/acs.est.3c04120
Temporal dynamics of total and bioavailable fungicide concentrations in soil and their effect upon nine soil microbial markers
Riedo, J., Yokota, A., Walther, B., Bartolomé, N., van der Heijden, M. G. A., Bucheli, T. D., & Walder, F. (2023). Temporal dynamics of total and bioavailable fungicide concentrations in soil and their effect upon nine soil microbial markers. Science of the Total Environment, 878, 162995 (10 pp.). https://doi.org/10.1016/j.scitotenv.2023.162995
Global distribution and ecological risk assessment of synthetic musks in the environment
Wang, T., Zou, H., Li, D., Gao, J., Bu, Q., & Wang, Z. (2023). Global distribution and ecological risk assessment of synthetic musks in the environment. Environmental Pollution, 331, 121893 (19 pp.). https://doi.org/10.1016/j.envpol.2023.121893
Major international negotiations on chemicals and waste for researchers from all disciplines to watch for in 2023
Wang, M., Carlini, G., & Wang, Z. (2023). Major international negotiations on chemicals and waste for researchers from all disciplines to watch for in 2023. Environmental Science and Technology Letters, 10(5), 392-394. https://doi.org/10.1021/acs.estlett.3c00219
Chemicals in plastics. A technical report
Weber, R., Ashta, N. M., Aurisano, N., Wang, Z., Outters, M., De Miguel, K., … Fantke, P. (2023). Chemicals in plastics. A technical report. United Nations Environment Programme (UNEP).
Dynamic source distribution and emission inventory of a persistent, mobile, and toxic (PMT) substance, melamine, in China
Zhang, S., Chen, J., Wang, Z., Chen, C., Chen, A., Jing, Q., & Liu, J. (2023). Dynamic source distribution and emission inventory of a persistent, mobile, and toxic (PMT) substance, melamine, in China. Environmental Science and Technology, 57(39), 14694-14706. https://doi.org/10.1021/acs.est.3c02945
Material flow, economic and environmental life cycle performances of informal electronic waste recycling in a Thai community
Arain, A. L., Neitzel, R. L., Nambunmee, K., Hischier, R., Jindaphong, S., Austin-Breneman, J., & Jolliet, O. (2022). Material flow, economic and environmental life cycle performances of informal electronic waste recycling in a Thai community. Resources, Conservation and Recycling, 180, 106129 (12 pp.). https://doi.org/10.1016/j.resconrec.2021.106129
Charging sustainable batteries
Bauer, C., Burkhardt, S., Dasgupta, N. P., Ager-Wick Ellingsen, L., Gaines, L. L., Hao, H., … Xu, S. (2022). Charging sustainable batteries. Nature Sustainability, 5, 176-178. https://doi.org/10.1038/s41893-022-00864-1
The pursuit of more sustainable production techniques and uses for graphene-based materials
Beloin-Saint-Pierre, D. (2022). The pursuit of more sustainable production techniques and uses for graphene-based materials. One Earth, 5(12), 1324-1326. https://doi.org/10.1016/j.oneear.2022.11.010
Batterien: so schlecht wie ihr Ruf?
Gauch, M. (2022). Batterien: so schlecht wie ihr Ruf? In Batterien. Schlüssel für die Energiewende. Kompendium zu Forschung, Entwicklung, Potenzial und Systemintegration von Batteriespeichern (pp. 27-33). Forum Energiespeicher Schweiz.
 

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