| 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 | 145 | 2019 |
| Growth trends in Russia after 1998 RM Entov, OV Lugovoy | 99* | 2013 |
| Analysis of economic growth in regions: Geographical and institutional aspect O Lugovoy, V Dashkeev, I Mazayev, D Fomchenko, E Polyakov, A Hecht Available at SSRN 1268088, 2007 | 88* | 2007 |
| Pathways to deep decarbonization-2014 report J Sachs, E Guerin, C Mas, G Schmidt-Traub, L Tubiana, H Waisman, ... | 62* | 2014 |
| Feasibility study of China's electric power sector transition to zero emissions by 2050 O Lugovoy, S Gao, J Gao, K Jiang Energy Economics 96, 105176, 2021 | 42 | 2021 |
| Co-controlling CO2 and NOx emission in China's cement industry: An optimal development pathway study XZ Feng, O Lugovoy, H Qin Advances in Climate Change Research 9 (1), 34-42, 2018 | 41 | 2018 |
| The low carbon development options for Russia G Safonov, V Potashnikov, O Lugovoy, M Safonov, A Dorina, A Bolotov Climatic Change 162, 1929-1945, 2020 | 40 | 2020 |
| Carbon emission scenarios of China's power sector: impact of controlling measures and carbon pricing mechanism Q Liu, XQ Zheng, XC Zhao, Y Chen, O Lugovoy Advances in Climate Change Research 9 (1), 27-33, 2018 | 38 | 2018 |
| Russia and the post-2012 climate regime: Foreign rather than environmental policy A Korppoo UPI briefing paper 23 (8), 2008 | 34 | 2008 |
| Quantifying barriers to decarbonization of the Russian economy: real options analysis of investment risks in low-carbon technologies A Golub, O Lugovoy, V Potashnikov Climate policy 19 (6), 716-724, 2019 | 31 | 2019 |
| Multi-model comparison of CO2 emissions peaking in China: lessons from CEMF01 study O Lugovoy, XZ Feng, J Gao, JF Li, Q Liu, F Teng, LL Zou Advances in Climate Change Research 9 (1), 1-15, 2018 | 28 | 2018 |
| DICER: a tool for analyzing climate policies RA Ortiz, A Golub, O Lugovoy, A Markandya, J Wang Energy Economics 33, S41-S49, 2011 | 26 | 2011 |
| Decarbonizing Russia: Leapfrogging from fossil fuel to hydrogen V Potashnikov, A Golub, M Brody, O Lugovoy Energies 15 (3), 683, 2022 | 25 | 2022 |
| Faktory ekonomicheskogo rosta v regionakh RF [Factors of economic growth in Russia’s regions] S Drobyshevskiy, O Lugovoy, E Astafyeva, D Polevoy, A Kozlovskaya, ... Moscow, Institute of Economics in Transition Publ, 2005 | 22* | 2005 |
| Низкоуглеродное развитие как драйвер экономического роста ОВ Луговой, Л Джон, ВЮ Поташников Российское предпринимательство 16 (23), 4221-4228, 2015 | 20* | 2015 |
| Promoting reproducibility and increased collaboration in electric sector capacity expansion models with community benchmarking and intercomparison efforts CL Henry, H Eshraghi, O Lugovoy, MB Waite, JF DeCarolis, DJ Farnham, ... Applied Energy 304, 117745, 2021 | 18 | 2021 |
| Cost and benefits of deep decarbonization in Russia PV Yu Экономическая политика 15 (2), 86-105, 2020 | 16 | 2020 |
| Faktory ekonomicheskogo rosta v regionakh RF [Factors of economic growth in the regions of the Russian Federation] S Drobyshevskiy, O Lugovoy, E Astafeva Moscow, Izd-vo IEPP, 2005 | 14 | 2005 |
| Towards a zero-carbon electricity system for India in 2050: IDEEA model-based scenarios integrating wind and solar complementarity and geospatial endowments O Lugovoy, V Jyothiprakash, S Chatterjee, S Sharma, A Mukherjee, A Das, ... Energies 14 (21), 7063, 2021 | 9 | 2021 |
| Building the future we want RK Pachauri The Energy and Resources Institute (TERI), 2014 | 7 | 2014 |
