Mesoporous TiO2 single crystals delivering enhanced mobility and optoelectronic device performance EJW Crossland, N Noel, V Sivaram, T Leijtens, JA Alexander-Webber, ... Nature 495 (7440), 215-219, 2013 | 846 | 2013 |
Evaluation of a proposal for reliable low-cost grid power with 100% wind, water, and solar CTM Clack, SA Qvist, J Apt, M Bazilian, AR Brandt, K Caldeira, SJ Davis, ... Proceedings of the National Academy of Sciences 114 (26), 6722-6727, 2017 | 415 | 2017 |
Venture capital and cleantech: The wrong model for energy innovation BE Gaddy, V Sivaram, TB Jones, L Wayman Energy Policy 102, 385-395, 2017 | 237 | 2017 |
Solar power needs a more ambitious cost target V Sivaram, S Kann Nature Energy 1 (4), 1-3, 2016 | 112 | 2016 |
Taming the sun: Innovations to harness solar energy and power the planet V Sivaram MIT Press, 2018 | 109 | 2018 |
Collective wind farm operation based on a predictive model increases utility-scale energy production MF Howland, JB Quesada, JJP Martínez, FP Larrañaga, N Yadav, ... Nature Energy 7 (9), 818-827, 2022 | 88 | 2022 |
Venture capital and cleantech: The wrong model for clean energy innovation B Gaddy, V Sivaram, F O’Sullivan Report MIT Energy Initiative, 2016 | 83 | 2016 |
Applying blockchain technology to electric power systems D Livingston, V Sivaram, M Freeman, M Fiege Council on Foreign Relations., 2022 | 71 | 2022 |
The need for continued innovation in solar, wind, and energy storage V Sivaram, JO Dabiri, DM Hart Joule 2 (9), 1639-1642, 2018 | 66 | 2018 |
out-shining silicon V Sivaram, SD Stranks, HJ Snaith Scientific American 313 (1), 54-59, 2015 | 52 | 2015 |
Saving innovative climate and energy research: Four recommendations for Mission Innovation DL Sanchez, V Sivaram Energy research & social science 29, 123-126, 2017 | 41 | 2017 |
The clean energy revolution: Fighting climate change with innovation V Sivaram, T Norris Foreign Affairs 95 (3), 147-156, 2016 | 26 | 2016 |
The influence of 1D, meso-and crystal structures on charge transport and recombination in solid-state dye-sensitized solar cells P Docampo, A Ivaturi, R Gunning, S Diefenbach, J Kirkpatrick, ... Journal of Materials Chemistry A 1 (39), 12088-12095, 2013 | 25 | 2013 |
The geopolitical implications of a clean energy future from the perspective of the United States V Sivaram, S Saha The geopolitics of renewables, 125-162, 2018 | 24 | 2018 |
Observation of Annealing-Induced Doping in TiO2 Mesoporous Single Crystals for Use in Solid State Dye Sensitized Solar Cells V Sivaram, EJW Crossland, T Leijtens, NK Noel, J Alexander-Webber, ... The Journal of Physical Chemistry C 118 (4), 1821-1827, 2014 | 23 | 2014 |
The Modern Energy Minimum: The case for a new global electricity consumption threshold T Moss, M Bazilian, M Blimpo, L Culver, J Kincer, M Mahadavan, V Modi, ... Energy for Growth Hub 30, 2020 | 22 | 2020 |
Mounting System for Solar Modules R Stancel, V Sivaram US Patent App. 12/676,138, 2010 | 22 | 2010 |
Energizing America V Sivaram, C Cunliff, D Hart, J Friedmann, D Sandalow A Roadmap to launch a national energy innovation mission. Columbia University, 2020 | 19 | 2020 |
Semiconducting Layer Production Process HJ Snaith, EJW Crossland, N Nakita, V Sivaram, T Leijtens US Patent App. 14/771,584, 2016 | 16 | 2016 |
Enhanced electronic contacts in SnO 2–dye–P3HT based solid state dye sensitized solar cells G Sadoughi, V Sivaram, R Gunning, P Docampo, I Bruder, N Pschirer, ... Physical Chemistry Chemical Physics 15 (6), 2075-2080, 2013 | 16 | 2013 |