|Biophysical and economic limits to negative CO2 emissions|
P Smith, SJ Davis, F Creutzig, S Fuss, J Minx, B Gabrielle, E Kato, ...
Nature climate change 6 (1), 42-50, 2016
|Assessing transformation pathways|
L Clarke, K Jiang, K Akimoto, M Babiker, G Blanford, K Fisher-Vanden, ...
Cambridge University Press, 2014
|Probabilistic cost estimates for climate change mitigation|
J Rogelj, DL McCollum, A Reisinger, M Meinshausen, K Riahi
Nature 493 (7430), 79-83, 2013
|Locked into Copenhagen pledges—implications of short-term emission targets for the cost and feasibility of long-term climate goals|
K Riahi, E Kriegler, N Johnson, C Bertram, M Den Elzen, J Eom, ...
Technological Forecasting and Social Change 90, 8-23, 2015
|Mitigation pathways compatible with 1.5 C in the context of sustainable development|
J Rogelj, D Shindell, K Jiang, S Fifita, P Forster, V Ginzburg, C Handa, ...
Intergovernmental Panel on Climate Change, 2018
|Energy pathways for sustainable development|
K Riahi, F Dentener, D Gielen, A Grubler, J Jewell, Z Klimont, V Krey, ...
Cambridge University Press and IIASA, 2012
|The marker quantification of the Shared Socioeconomic Pathway 2: A middle-of-the-road scenario for the 21st century|
O Fricko, P Havlik, J Rogelj, Z Klimont, M Gusti, N Johnson, P Kolp, ...
Global Environmental Change 42, 251-267, 2017
|Meeting an 80% reduction in greenhouse gas emissions from transportation by 2050: A case study in California|
C Yang, D McCollum, R McCarthy, W Leighty
Transportation Research Part D: Transport and Environment 14 (3), 147-156, 2009
|A low energy demand scenario for meeting the 1.5 C target and sustainable development goals without negative emission technologies|
A Grubler, C Wilson, N Bento, B Boza-Kiss, V Krey, DL McCollum, ...
Nature energy 3 (6), 515-527, 2018
|Techno-economic models for carbon dioxide compression, transport, and storage & correlations for estimating carbon dioxide density and viscosity|
DL McCollum, JM Ogden
|Transport: A roadblock to climate change mitigation?|
F Creutzig, P Jochem, OY Edelenbosch, L Mattauch, DP van Vuuren, ...
Science 350 (6263), 911-912, 2015
|2020 emissions levels required to limit warming to below 2° C|
J Rogelj, DL McCollum, BC O’Neill, K Riahi
Nature Climate Change 3 (4), 405-412, 2013
|Achieving deep reductions in US transport greenhouse gas emissions: Scenario analysis and policy implications|
D McCollum, C Yang
Energy Policy 37 (12), 5580-5596, 2009
|Post-2020 climate agreements in the major economies assessed in the light of global models|
M Tavoni, E Kriegler, K Riahi, DP Van Vuuren, T Aboumahboub, A Bowen, ...
Nature Climate Change 5 (2), 119-126, 2015
|Climate policies can help resolve energy security and air pollution challenges|
DL McCollum, V Krey, K Riahi, P Kolp, A Grubler, M Makowski, ...
Climatic change 119 (2), 479-494, 2013
|Connecting the sustainable development goals by their energy inter-linkages|
DL McCollum, LG Echeverri, S Busch, S Pachauri, S Parkinson, J Rogelj, ...
Environmental Research Letters 13 (3), 033006, 2018
|Stranded on a low-carbon planet: Implications of climate policy for the phase-out of coal-based power plants|
N Johnson, V Krey, DL McCollum, S Rao, K Riahi, J Rogelj
Technological Forecasting and Social Change 90, 89-102, 2015
|A guide to SDG interactions: from science to implementation|
DJ Griggs, M Nilsson, A Stevance, D McCollum
International Council for Science, Paris, 2017
|An integrated approach to energy sustainability|
DL McCollum, V Krey, K Riahi
Nature Climate Change 1 (9), 428-429, 2011
|Energy investment needs for fulfilling the Paris Agreement and achieving the Sustainable Development Goals|
DL McCollum, W Zhou, C Bertram, HS De Boer, V Bosetti, S Busch, ...
Nature Energy 3 (7), 589-599, 2018