Assessment of hydrogen direct reduction for fossil-free steelmaking V Vogl, M Åhman, LJ Nilsson Journal of cleaner production 203, 736-745, 2018 | 593 | 2018 |
A review of technology and policy deep decarbonization pathway options for making energy-intensive industry production consistent with the Paris Agreement C Bataille, M Åhman, K Neuhoff, LJ Nilsson, M Fischedick, ... Journal of Cleaner Production 187, 960-973, 2018 | 487 | 2018 |
Government policy and the development of electric vehicles in Japan M Åhman Energy Policy 34 (4), 433-443, 2006 | 351 | 2006 |
Decarbonising the energy intensive basic materials industry through electrification–Implications for future EU electricity demand S Lechtenböhmer, LJ Nilsson, M Åhman, C Schneider Energy 115, 1623-1631, 2016 | 324 | 2016 |
The transition of energy intensive processing industries towards deep decarbonization: Characteristics and implications for future research JH Wesseling, S Lechtenböhmer, M Åhman, LJ Nilsson, E Worrell, ... Renewable and Sustainable Energy Reviews 79, 1303-1313, 2017 | 299 | 2017 |
Global climate policy and deep decarbonization of energy-intensive industries M Åhman, LJ Nilsson, B Johansson Climate Policy 17 (5), 634-649, 2017 | 245 | 2017 |
Primary energy efficiency of alternative powertrains in vehicle M Åhman Energy 26 (11), 973-989, 2001 | 229 | 2001 |
Adopting hydrogen direct reduction for the Swedish steel industry: A technological innovation system (TIS) study D Kushnir, T Hansen, V Vogl, M Åhman Journal of Cleaner Production 242, 118185, 2020 | 137 | 2020 |
Data centres in future European energy systems—energy efficiency, integration and policy C Koronen, M Åhman, LJ Nilsson Energy Efficiency 13 (1), 129-144, 2020 | 130 | 2020 |
Path dependency and the future of advanced vehicles and biofuels M Åhman, LJ Nilsson Utilities Policy 16 (2), 80-89, 2008 | 102 | 2008 |
The making of green steel in the EU: a policy evaluation for the early commercialization phase V Vogl, M Åhman, LJ Nilsson Climate Policy 21 (1), 78-92, 2021 | 101 | 2021 |
Biomethane in the transport sector—An appraisal of the forgotten option M Åhman Energy Policy 38 (1), 208-217, 2010 | 101 | 2010 |
An industrial policy framework for transforming energy and emissions intensive industries towards zero emissions LJ Nilsson, F Bauer, M Åhman, FNG Andersson, C Bataille, ... Climate Policy 21 (8), 1053-1065, 2021 | 98 | 2021 |
Electricity-based plastics and their potential demand for electricity and carbon dioxide E Palm, LJ Nilsson, M Åhman Journal of Cleaner Production 129, 548-555, 2016 | 91 | 2016 |
Which countries are prepared to green their coal-based steel industry with electricity?-Reviewing climate and energy policy as well as the implementation of renewable electricity M Arens, M Åhman, V Vogl Renewable and Sustainable Energy Reviews 143, 110938, 2021 | 86 | 2021 |
A comparison of technologies for carbon-neutral passenger transport B Johansson, M Åhman Transportation Research Part D: Transport and Environment 7 (3), 175-196, 2002 | 65 | 2002 |
Hydrogen steelmaking for a low-carbon economy: A joint LU-SEI working paper for the HYBRIT project M Åhman, O Olsson, V Vogl, B Nyqvist, A Maltais, LJ Nilsson, K Hallding, ... Miljö-och energisystem, LTH, Lunds universitet, 2018 | 64 | 2018 |
Decarbonizing industry in the EU: Climate, trade and industrial policy strategies M Åhman, LJ Nilsson Decarbonization in the European Union: Internal Policies and External …, 2015 | 60 | 2015 |
A climate club to decarbonize the global steel industry L Hermwille, S Lechtenböhmer, M Åhman, H van Asselt, C Bataille, ... Nature Climate Change 12 (6), 494-496, 2022 | 55 | 2022 |
Decarbonising industry in Sweden M Åhman, A Nikoleris, LJ Nilsson Lund University, 2012 | 51 | 2012 |