The defossilization of our economy requires that materials for renewable energy conversion technologies are themselves green, renewable and circular. To this end, components such as batteries, electronic devices and electric motors should be recycled and regenerated, and produced solely from secondary raw materials.
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Garside, M. Major countries in worldwide cobalt mine production from 2010 to 2020. Cobalt - mine production by major countries 2010–2020. Statista https://www.statista.com/statistics/264928/cobalt-mine-production-by-country/ (2021).
Katz-Lavigne, S. Artisanal copper mining and conflict at the intersection of property rights and corporate strategies in the Democratic Republic of Congo. Extr. Ind. Soc. 6, 399–406 (2019).
Callaway, A. Powering down corruption. Tackling transparancy and human rights risks from Congo’s cobalt mines to global supply chains. Enough Project https://enoughproject.org/wp-content/uploads/PoweringDownCorruption_Enough_Oct2018-web.pdf (2018).
Heimes, H. H. et al. Lithium-ion battery cell production process. RWTH Aachen Chair of Production Engineering of E-Mobility Components and VDMA https://www.pem.rwth-aachen.de/global/show_document.asp?id=aaaaaaaaabdqbtk (2018).
Curry, C. Lithium-ion battery costs and market: squeezed margins seek technology improvements & new business models. Bloomberg New Energy Finance https://data.bloomberglp.com/bnef/sites/14/2017/07/BNEF-Lithium-ion-battery-costs-and-market.pdf (2017).
Sommerfeld, M. et al. A Combined pyro- and hydrometallurgical approach to recycle pyrolyzed lithium-ion battery black mass part 1: production of lithium concentrates in an electric arc furnace. Metals 10, 1069 (2020).
Georgi-Maschler, T., Friedrich, B., Weyhe, R., Heegn, H. & Rutz, M. Development of a recycling process for Li-ion batteries. J. Power Sources 207, 173–182 (2012).
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Weidenkaff, A., Wagner-Wenz, R. & Veziridis, A. A world without electronic waste. Nat Rev Mater 6, 462–463 (2021). https://doi.org/10.1038/s41578-021-00330-y
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