Technologies and policies to decarbonize global industry: Review and assessment of mitigation drivers through 2070 J Rissman, C Bataille, E Masanet, N Aden, WR Morrow III, N Zhou, ... Applied energy 266, 114848, 2020 | 824 | 2020 |
Climate change 2022: Mitigation of climate change PR Shukla, J Skea, R Slade, A Al Khourdajie, R Van Diemen, ... Contribution of working group III to the sixth assessment report of the …, 2022 | 583 | 2022 |
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 | 550 | 2018 |
Hybrid modeling: new answers to old challenges introduction to the special issue of the energy journal JC Hourcade, M Jaccard, C Bataille, F Ghersif The Energy Journal 27 (2_suppl), 1-11, 2006 | 489 | 2006 |
Summary for policymakers AR Shukla, J Skea, A Reisinger, R Slade, R Fradera, M Pathak, ... Cambridge University Press, 2022 | 280 | 2022 |
Physical and policy pathways to net‐zero emissions industry CGF Bataille Wiley Interdisciplinary Reviews: Climate Change 11 (2), e633, 2020 | 202 | 2020 |
Modeling the cost of climate policy: distinguishing between alternative cost definitions and long-run cost dynamics M Jaccard, J Nyboer, C Bataille, B Sadownik The Energy Journal 24 (1), 49-73, 2003 | 175 | 2003 |
The need for national deep decarbonization pathways for effective climate policy C Bataille, H Waisman, M Colombier, L Segafredo, J Williams, F Jotzo Climate Policy 16 (sup1), S7-S26, 2016 | 171 | 2016 |
Technical summary M Pathak, R Slade, PR Shukla, J Skea, R Pichs-Madruga, D Ürge-Vorsatz Climate change, 49-147, 2022 | 167 | 2022 |
A pathway design framework for national low greenhouse gas emission development strategies H Waisman, C Bataille, H Winkler, F Jotzo, P Shukla, M Colombier, ... Nature Climate Change 9 (4), 261-268, 2019 | 161 | 2019 |
Towards general equilibrium in a technology-rich model with empirically estimated behavioral parameters C Bataille, M Jaccard, J Nyboer, N Rivers The Energy Journal 27 (2_suppl), 1-20, 2006 | 148 | 2006 |
Modelling net-zero emissions energy systems requires a change in approach S Pye, O Broad, C Bataille, P Brockway, HE Daly, R Freeman, A Gambhir, ... Climate Policy 21 (2), 222-231, 2021 | 147 | 2021 |
International handbook on the economics of energy LC Hunt, J Evans Edward Elgar Publishing, 2011 | 137 | 2011 |
Net-zero deep decarbonization pathways in Latin America: Challenges and opportunities C Bataille, H Waisman, Y Briand, J Svensson, A Vogt-Schilb, M Jaramillo, ... Energy Strategy Reviews 30, 100510, 2020 | 128 | 2020 |
Energy efficiency and economic growth: A retrospective CGE analysis for Canada from 2002 to 2012 C Bataille, N Melton Energy Economics 64, 118-130, 2017 | 112 | 2017 |
Cement and steel—nine steps to net zero P Fennell, J Driver, C Bataille, SJ Davis Nature 603 (7902), 574-577, 2022 | 110 | 2022 |
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 | 97 | 2021 |
Low and zero emissions in the steel and cement industries: Barriers, technologies and policies C Bataille OECD, 2020 | 83 | 2020 |
Carbon prices across countries C Bataille, C Guivarch, S Hallegatte, J Rogelj, H Waisman Nature Climate Change 8 (8), 648-650, 2018 | 80 | 2018 |
The deep decarbonization pathways project (DDPP): insights and emerging issues C Bataille, H Waisman, M Colombier, L Segafredo, J Williams Climate Policy 16 (sup1), S1-S6, 2016 | 76 | 2016 |