A cost and resource analysis of sodium-ion batteries C Vaalma, D Buchholz, M Weil, S Passerini Nature reviews materials 3 (4), 1-11, 2018 | 1978 | 2018 |
The environmental impact of Li-Ion batteries and the role of key parameters–A review JF Peters, M Baumann, B Zimmermann, J Braun, M Weil Renewable and Sustainable Energy Reviews 67, 491-506, 2017 | 850 | 2017 |
The influence of calcium content on the structure and thermal performance of fly ash based geopolymers K Dombrowski, A Buchwald, M Weil Journal of Materials Science 42, 3033-3043, 2007 | 394 | 2007 |
Life cycle assessment of sodium-ion batteries J Peters, D Buchholz, S Passerini, M Weil Energy & Environmental Science 9 (5), 1744-1751, 2016 | 307 | 2016 |
Life-cycle analysis of geopolymers M Weil, K Dombrowski, A Buchwald Geopolymers, 194-210, 2009 | 286 | 2009 |
Fluoride ion batteries: Theoretical performance, safety, toxicity, and a combinatorial screening of new electrodes F Gschwind, G Rodriguez-Garcia, DJS Sandbeck, A Gross, M Weil, ... Journal of Fluorine Chemistry 182, 76-90, 2016 | 281 | 2016 |
Rechargeable batteries of the future—the state of the art from a BATTERY 2030+ perspective M Fichtner, K Edström, E Ayerbe, M Berecibar, A Bhowmik, IE Castelli, ... Advanced Energy Materials 12 (17), 2102904, 2022 | 241 | 2022 |
Toward a cell‐chemistry specific life cycle assessment of lithium‐ion battery recycling processes M Mohr, JF Peters, M Baumann, M Weil Journal of Industrial Ecology 24 (6), 1310-1322, 2020 | 233 | 2020 |
Life cycle assessment of a vanadium redox flow battery S Weber, JF Peters, M Baumann, M Weil Environmental science & technology 52 (18), 10864-10873, 2018 | 229 | 2018 |
Modeling the potential impact of lithium recycling from EV batteries on lithium demand: A dynamic MFA approach S Ziemann, DB Müller, L Schebek, M Weil Resources, Conservation and Recycling 133, 76-85, 2018 | 224 | 2018 |
A review of multi-criteria decision making approaches for evaluating energy storage systems for grid applications M Baumann, M Weil, JF Peters, N Chibeles-Martins, AB Moniz Renewable and Sustainable Energy Reviews 107, 516-534, 2019 | 218 | 2019 |
Providing a common base for life cycle assessments of Li-Ion batteries JF Peters, M Weil Journal of Cleaner Production 171, 704-713, 2018 | 199 | 2018 |
CO2 Footprint and Life‐Cycle Costs of Electrochemical Energy Storage for Stationary Grid Applications M Baumann, JF Peters, M Weil, A Grunwald Energy Technology 5 (7), 1071-1083, 2017 | 197 | 2017 |
Exploring the economic potential of sodium-ion batteries JF Peters, A Peña Cruz, M Weil Batteries 5 (1), 10, 2019 | 172 | 2019 |
Closed-loop recycling of construction and demolition waste in Germany in view of stricter environmental threshold values M Weil, U Jeske, L Schebek Waste Management & Research 24 (3), 197-206, 2006 | 137 | 2006 |
Guidelines to design organic electrolytes for lithium-ion batteries: environmental impact, physicochemical and electrochemical properties B Flamme, GR Garcia, M Weil, M Haddad, P Phansavath, ... Green Chemistry 19 (8), 1828-1849, 2017 | 132 | 2017 |
A roadmap for transforming research to invent the batteries of the future designed within the european large scale research initiative battery 2030+ J Amici, P Asinari, E Ayerbe, P Barboux, P Bayle‐Guillemaud, RJ Behm, ... Advanced energy materials 12 (17), 2102785, 2022 | 128 | 2022 |
Potential metal requirement of active materials in lithium-ion battery cells of electric vehicles and its impact on reserves: Focus on Europe B Simon, S Ziemann, M Weil Resources, conservation and recycling 104, 300-310, 2015 | 126 | 2015 |
Charging sustainable batteries C Bauer, S Burkhardt, NP Dasgupta, LAW Ellingsen, LL Gaines, H Hao, ... Nature Sustainability 5 (3), 176-178, 2022 | 118 | 2022 |
Tracing the fate of lithium––The development of a material flow model S Ziemann, M Weil, L Schebek Resources, Conservation and Recycling 63, 26-34, 2012 | 117 | 2012 |