Lithium: Sources, production, uses, and recovery outlook L Talens Peiró, G Villalba Méndez, RU Ayres Jom 65, 986-996, 2013 | 326 | 2013 |
Life cycle assessment of biogas upgrading technologies K Starr, X Gabarrell, G Villalba, L Talens, L Lombardi Waste management 32 (5), 991-999, 2012 | 281 | 2012 |
EU methodology for critical raw materials assessment: Policy needs and proposed solutions for incremental improvements GA Blengini, P Nuss, J Dewulf, V Nita, LT Peirò, B Vidal-Legaz, ... Resources Policy 53, 12-19, 2017 | 216 | 2017 |
Life cycle assessment (LCA) and exergetic life cycle assessment (ELCA) of the production of biodiesel from used cooking oil (UCO) LT Peiró, L Lombardi, GV Méndez, XG i Durany Energy 35 (2), 889-893, 2010 | 207 | 2010 |
Material flow analysis of scarce metals: Sources, functions, end-uses and aspects for future supply LT Peiró, GV Méndez, RU Ayres Environmental science & technology 47 (6), 2939-2947, 2013 | 160 | 2013 |
Global substance flow analysis of gallium, germanium, and indium: quantification of extraction, uses, and dissipative losses within their anthropogenic cycles C Licht, LT Peiró, G Villalba Journal of Industrial Ecology 19 (5), 890-903, 2015 | 157 | 2015 |
Exergy analysis applied to biodiesel production L Talens, G Villalba, X Gabarrell Resources, Conservation and Recycling 51 (2), 397-407, 2007 | 145 | 2007 |
Material efficiency: rare and critical metals RU Ayres, LT Peiro Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2013 | 134 | 2013 |
Material flow analysis and energy requirements of mobile phone material recovery processes JM Valero Navazo, G Villalba Méndez, L Talens Peiró The International Journal of Life Cycle Assessment 19, 567-579, 2014 | 130 | 2014 |
Material and energy requirement for rare earth production L Talens Peiró, G Villalba Méndez Jom 65, 1327-1340, 2013 | 124 | 2013 |
Assessment of the methodology for establishing the EU list of critical raw materials: Background report GA Blengini, D Blagoeva, J Dewulf, C Torres de Matos, V Nita, ... JRC Technical Reports, 2017 | 93* | 2017 |
Advances towards circular economy policies in the EU: The new Ecodesign regulation of enterprise servers LT Peiró, D Polverini, F Ardente, F Mathieux Resources, Conservation and Recycling 154, 104426, 2020 | 92 | 2020 |
Accounting for the environmental benefits of remanufactured products: Method and application F Ardente, LT Peiró, F Mathieux, D Polverini Journal of cleaner production 198, 1545-1558, 2018 | 86 | 2018 |
Extended exergy accounting applied to biodiesel production LT Peiró, GV Méndez, E Sciubba, XG i Durany Energy 35 (7), 2861-2869, 2010 | 82 | 2010 |
Lessons, narratives, and research directions for a sustainable circular economy S Leipold, A Petit‐Boix, A Luo, H Helander, M Simoens, WS Ashton, ... Journal of Industrial Ecology 27 (1), 6-18, 2023 | 80 | 2023 |
Exergy analysis of integrated waste management in the recovery and recycling of used cooking oils LT Peiró, GV Méndez, XGI Durany Environmental science & technology 42 (13), 4977-4981, 2008 | 76 | 2008 |
Analysis of energy usage in Nd–Fe–B magnet to magnet recycling M Zakotnik, CO Tudor, LT Peiró, P Afiuny, R Skomski, GP Hatch Environmental Technology & Innovation 5, 117-126, 2016 | 72 | 2016 |
Design for disassembly criteria in EU product policies for a more circular economy: A method for analyzing battery packs in PC‐tablets and subnotebooks L Talens Peiró, F Ardente, F Mathieux Journal of Industrial Ecology 21 (3), 731-741, 2017 | 57 | 2017 |
Why energy models should integrate social and environmental factors: Assessing user needs, omission impacts, and real-word accuracy in the European Union D Süsser, N Martin, V Stavrakas, H Gaschnig, L Talens-Peiró, A Flamos, ... Energy research & social science 92, 102775, 2022 | 53 | 2022 |
Potential CO2 savings through biomethane generation from municipal waste biogas K Starr, X Gabarrell, G Villalba, LT Peiro, L Lombardi Biomass and Bioenergy 62, 8-16, 2014 | 50 | 2014 |