The EU’s Quest for Strategic Raw Materials: What Role for Mining and Recycling?

Carrara, S. et al. (2023) Supply chain analysis and material demand forecast in strategic technologies and sectors in the EU – A foresight study, Publications Office of the European Union. Search in Google Scholar

Copper Alliance (2022), Copper Recycling, https://copperalliance.org/resource/copper-recycling/ (27 March 2023). Search in Google Scholar

Council of the European Communities (1977), Council Resolution of the Council of the European Communities and of the Representatives of the Governments of the Member States Meeting Within the Council of May 1977 on the continuation and implementation of a European Community policy and action programme on the environment, Official Journal of the European Communities, C 139. Search in Google Scholar

Council of the European Union (2023), Proposal for a Regulation of the European Parliament and the Council Concerning Batteries and Waste Batteries, repealing Directive 2006/66/C and amending Regulation No 2019/1020 (2020/0353), 18 January. Search in Google Scholar

European Commission (2008), The raw materials initiative — meeting our critical needs for growth and jobs in Europe, Communication from the Commission to the European Parliament and the Council, COM(2008) 699 final. Search in Google Scholar

European Commission (2020), New Industrial Strategy for Europe, Communication from the Commission to the European Parliament, the European Council, the Council, the European Economic and Social Committee and the Committee of the Regions, COM(2020) 102 final. Search in Google Scholar

European Commission (2022, 14 September), 2022 State of the Union Address by President von der Leyen, Speech. Search in Google Scholar

European Commission (2023a), Study on the Critical Raw Materials 2023 – Final report. Search in Google Scholar

European Commission (2023b), Proposal for a Regulation of The European Parliament and of the Council establishing a framework for ensuring a secure and sustainable supply of critical raw materials and amending Regulations (EU) 168/2013, (EU) 2018/858, 2018/1724 and (EU) 2019/1020. Search in Google Scholar

Eurostat (2023), Waste statistics – electrical and electronic equipment, https://ec.europa.eu/eurostat/statistics-explained/index.php?title=Waste_statistics_-_electrical_and_electronic_equipment (27 March 2023). Search in Google Scholar

Fleming, S., A. Hancock and P. Wise (2022, 16 August), EU digs for more lithium, cobalt and graphite in green energy push, Financial Times. Search in Google Scholar

Friends of the Earth Europe (n. d.), Briefing on the EU’s Critical Raw Materials Regulation, Press Release, https://friendsoftheearth.eu/wp-content/uploads/2023/03/Critical-Raw-Materials-Regulation-FoEE-analysis.pdf (27 March 2023). Search in Google Scholar

Girardi, B., I. Patrahau, G. Cisco and M. Rademaker (2023), Strategic raw materials for defence - Mapping European industry needs, The Hague Centre for Strategic Studies. Search in Google Scholar

Goodenough, K. M., J. Schilling, E. Jonsson, P. Kalvig, N. Charles, J. Tuduri, E. A. Deady, M. Sadeghi, H. Schiellerup, A. Müller, G. Bertrand, N. Arvanitidis, D. G. Ekiopoulos, R. A. Shaw, K. Thrane and N. Keulen (2016), Europe’s rare earth element resource potential: An overview of REE metallogenetic provinces and their geodynamic setting, Ore Geology Reviews, 72, Part 1, 838-856. Search in Google Scholar

Horn, S., A. G. Gunn, E. Petavratzi, R. A. Shaw, P. Eilu, T. Törmänen, T. Bjerkgård, J. S. Sandstad, E. Jonsson, S. Kountourelis and F. Wall (2021), Cobalt resources in Europe and the potential for new discoveries, Ore Geology Reviews, 130, 103915. Search in Google Scholar

LKAB (2023, 12 January), Europe’s largest deposit of rare earth metals is located in the Kiruna area, Press release. Search in Google Scholar

Noyan, O. (2023, 17 March), Critical Raw Materials Act: Can Europe Achieve Its Ambitious Goals?, Euraktiv. Search in Google Scholar

Rizos, V., J. Bryhn, M. Alessi, A. Campmas and A. Zarra (2019), Identifying the impact of the circular economy on the Fast-Moving Consumer Goods Industry: opportunities and challenges for businesses, workers and consumers – mobile phones as an example, Study for the European Economic and Social Committee. Search in Google Scholar

Rizos, V. and E. Righetti (2022), Low-carbon technologies and Russian imports: How far can recycling reduce the EU’s raw material dependency?, CEPS Policy Insight, 22. Search in Google Scholar

Rizos, V., E. Righetti and A. Kassab (2022), Developing a supply chain for recycled rare earth permanent magnets in the EU - Challenges and opportunities, CEPS In-depth Analysis, December, 2022 – 07. Search in Google Scholar

Mehlhart, G., I. Kosińska, Y. Baron and A. Hermann (2017), Assessment of the implementation of Directive 2000/53/EU on end-of-life vehicles (the ELV Directive) with emphasis on the end-of-life vehicles of unknown whereabouts. Search in Google Scholar

Wang, S., Z. Hausfather, S. Davis, J. Lloyd, E. B. Olson, L. Liebermann, G. D. Núñez-Mujica and J. McBride (2023), Future demand for electricity generation materials under different climate mitigation scenarios, Joule, 7(2), 309-332. Search in Google Scholar

United States Geological Service (2023), Lithium Statistics and Information, https://www.usgs.gov/centers/national-minerals-information-center/lithium-statistics-and-information (27 March 2023). Search in Google Scholar

Vif, J.-Y. (2022, 24 October), First lithium mining project launched in France, Le Monde. Search in Google Scholar