Khamphilavanh B.E., Masui T. (2021) Assessing the Impacts of Introducing of Carbon Tax and Technologies for Road Transportation in Laos. Chemical Engineering Transactions, 89, 103-108
-
-
Ren M., Lu P., Liu X., Hossain M.S., Fang Y., Hanaoka T., O’Gallachoir B., Glynn J., Dai H. (2021) Decarbonizing China’s Iron and Steel Industry from the Supply and Demand Sides for Carbon Neutrality. Applied Energy, 298 (117209)
-
Zhang R., Hanaoka T. (2021) Deployment of electric vehicles in China to meet the carbon neutral target by 2060: provincial disparities in energy systems, CO2 emissions and cost effectiveness. Resources, Conservation & Recycling, 170 (105622)
-
van den Berg N., van Soest H., Hof A., den Elzen M., van Vuuren D., Chen W., Drouet L., Fujimori S. , Hohne N. , Koberle A., McCollum D., Schaeffer R. , Shekhar S., Vishwanathan S., Vrontisi Z., Blok K. (2020) Implications of various effort-sharing approaches for national carbon budgets and emission pathways. Climatic Change, 162, 1805-1822
-
Hasegawa T., Sakurai G., Fujimori S., Takahashi K., Hijioka Y., Masui T. (2021) Extreme climate events increase risk of global food insecurity and adaptation needs. Nature Food, 2, 587-595
-
Otsuka A., Hirano Y., Nakamura S., Fujita T., Narumi D. (2021) Longitudinal Evaluation of Energy-saving Effects and Their Implication Using Electricity Monitoring Data in Shinchi Town, Fukushima. Global Environmental Research, 24 (2), 207-216
-
Honjo K., Gomi K., Kanamori Y., Takahashi K., Matsuhashi K. (2021) Long-term projections of economic growth in the 47 prefectures of Japan: An application of Japan shared socioeconomic pathways. Heliyon, 7, e06412
-
Xing, R., Hanaoka T., Masui T. (2021) Deep decarbonization pathways in the building sector: China’s NDC and the Paris Agreement. Environmental Research Letters, in press
-
Chunark, P., Hanaoka T., Limmeechokchai, B. (2021) Shared socioeconomic pathways and long-term GHG mitigation towards 2050 in Thailand cement industry. Cleaner and Responsible Consumption, 2, 100006
-
Hasegawa T., Fujimori S., Havlik P., Valin H., Bodirsky B.L., Doelman J.C., Fellmann T., Kyle P., Koopman J.F.L., Lotze-Campen H., D'Croz D.M., Muller C., Ochi Y., Dominguez I.P., Stehfest E., Sulser T.B., Tabeau A., Takahashi K., Takakura J., van Meijl H., van Zeist W.J., Wiebe K., Witzke P. (2020) Reply to: An appeal to cost undermines food security risks of delayed mitigation. Nature Climate Change, 10, 420-421
-
Zhao R., Sun L., Zou X., Fujii M., Dong L., Dou Y., Geng Y., Wang F. (2021) Towards a Zero Waste city- an analysis from the perspective of energy recovery and landfill reduction in Beijing. Energy, 223 (120055)
-
Boonpanya T., Masui T. (2021) Decarbonizing Thailand: A Socio-economic Impact Study of Peak Emissions Before 2050. Thai Environmental Engineering Journal, 35 (1), 23-30
-
Fragkos P., van Soest H.L., Schaeffer R., Reedman L., Macaluso N., Evangelopoulou S., De Vita A., Sha F., Qimin C., Kejun J., Mathur R., Shekhar S., Dewi R.G., Silva D., Oshiro K., Fujimori S., Park C., Safonov G., Iyer G. (2021) Energy system transitions and low-carbon pathways in Australia, Brazil, Canada, China, EU-28, India, Indonesia, Japan, Republic of Korea, Russia and the United States. Energy, 216 (1), 119385
-
Silva D., Fujimori S.(2021) Beyond Japanese NDC: energy and macroeconomic transitions towards 2050 in emission pathways with multiple ambition levels, Sustainability Science, 1-13
-
Ju Y., Sugiyama M., Silva D., Wang J., Inoue A.(2021) An open-source tool for visualization of climate mitigation scenarios: mipplot, Environmental Modelling & Software