Development of SuperSmart Grids for a more efficient utilisation of electricity from renewable sources A Battaglini, J Lilliestam, A Haas, A Patt Journal of cleaner production 17 (10), 911-918, 2009 | 385 | 2009 |
Drop-in fuels from sunlight and air R Schäppi, D Rutz, F Dähler, A Muroyama, P Haueter, J Lilliestam, A Patt, ... Nature 601 (7891), 63-68, 2022 | 291 | 2022 |
Trade-offs between geographic scale, cost, and infrastructure requirements for fully renewable electricity in Europe T Tröndle, J Lilliestam, S Marelli, S Pfenninger Joule 4 (9), 1929-1948, 2020 | 218 | 2020 |
Modeling thermoelectric power generation in view of climate change H Förster, J Lilliestam Regional Environmental Change 10, 327-338, 2010 | 196 | 2010 |
Energy security and renewable electricity trade—Will Desertec make Europe vulnerable to the “energy weapon”? J Lilliestam, S Ellenbeck Energy policy 39 (6), 3380-3391, 2011 | 184 | 2011 |
The effect of carbon pricing on technological change for full energy decarbonization: A review of empirical ex‐post evidence J Lilliestam, A Patt, G Bersalli Wiley Interdisciplinary Reviews: Climate Change 12 (1), e681, 2021 | 175 | 2021 |
High-resolution large-scale onshore wind energy assessments: A review of potential definitions, methodologies and future research needs R McKenna, S Pfenninger, H Heinrichs, J Schmidt, I Staffell, C Bauer, ... Renewable Energy 182, 659-684, 2022 | 168 | 2022 |
Empirically observed learning rates for concentrating solar power and their responses to regime change J Lilliestam, M Labordena, A Patt, S Pfenninger Nature Energy 2 (7), 1-6, 2017 | 148 | 2017 |
Potential for concentrating solar power to provide baseload and dispatchable power S Pfenninger, P Gauché, J Lilliestam, K Damerau, F Wagner, A Patt Nature Climate Change 4 (8), 689-692, 2014 | 128 | 2014 |
Concentrating solar power for less than USD 0.07 per kWh: finally the breakthrough? J Lilliestam, R Pitz-Paal Renewable Energy Focus 26, 17-21, 2018 | 126 | 2018 |
Model-based policymaking or policy-based modelling? How energy models and energy policy interact D Süsser, A Ceglarz, H Gaschnig, V Stavrakas, A Flamos, G Giannakidis, ... Energy Research & Social Science 75, 101984, 2021 | 122 | 2021 |
Market integration of local energy systems: Is local energy management compatible with European regulation for retail competition? C Eid, LA Bollinger, B Koirala, D Scholten, E Facchinetti, J Lilliestam, ... Energy 114, 913-922, 2016 | 116 | 2016 |
Bioenergy production and sustainable development: science base for policymaking remains limited C Robledo‐Abad, HJ Althaus, G Berndes, S Bolwig, E Corbera, ... Gcb Bioenergy 9 (3), 541-556, 2017 | 115 | 2017 |
Comparing carbon capture and storage (CCS) with concentrating solar power (CSP): Potentials, costs, risks, and barriers J Lilliestam, JM Bielicki, AG Patt Energy policy 47, 447-455, 2012 | 115 | 2012 |
Shades of green: Centralisation, decentralisation and controversy among European renewable electricity visions J Lilliestam, S Hanger Energy Research & Social Science 17, 20-29, 2016 | 111 | 2016 |
Making concentrated solar power competitive with coal: the costs of a European feed-in tariff K Williges, J Lilliestam, A Patt Energy Policy 38 (6), 3089-3097, 2010 | 108 | 2010 |
Home-made or imported: On the possibility for renewable electricity autarky on all scales in Europe T Tröndle, S Pfenninger, J Lilliestam Energy strategy reviews 26, 100388, 2019 | 104 | 2019 |
How modelers construct energy costs: discursive elements in energy system and integrated assessment models S Ellenbeck, J Lilliestam Energy Research & Social Science 47, 69-77, 2019 | 103 | 2019 |
Impact of political and economic barriers for concentrating solar power in Sub-Saharan Africa M Labordena, A Patt, M Bazilian, M Howells, J Lilliestam Energy Policy 102, 52-72, 2017 | 101 | 2017 |
Vulnerability of solar energy infrastructure and output to climate change A Patt, S Pfenninger, J Lilliestam Climatic change 121, 93-102, 2013 | 96 | 2013 |