フォロー
Takuma Watari
タイトル
引用先
引用先
Review of critical metal dynamics to 2050 for 48 elements
T Watari, K Nansai, K Nakajima
Resources, Conservation and Recycling 155, 104669, 2020
2702020
Total material requirement for the global energy transition to 2050: A focus on transport and electricity
T Watari, BC McLellan, D Giurco, E Dominish, E Yamasue, K Nansai
Resources, Conservation and Recycling 148, 91-103, 2019
2482019
Major metals demand, supply, and environmental impacts to 2100: A critical review
T Watari, K Nansai, K Nakajima
Resources, Conservation and Recycling 164, 105107, 2021
1872021
Requirements for minerals and metals for 100% renewable scenarios
D Giurco, E Dominish, N Florin, T Watari, B McLellan
Achieving the Paris Climate Agreement goals: Global and regional 100 …, 2019
1012019
Analysis of potential for critical metal resource constraints in the international energy agency’s long-term low-carbon energy scenarios
T Watari, BC McLellan, S Ogata, T Tezuka
Minerals 8 (4), 156, 2018
842018
Efficient use of cement and concrete to reduce reliance on supply-side technologies for net-zero emissions
T Watari, Z Cao, S Hata, K Nansai
Nature communications 13 (1), 4158, 2022
602022
Future greenhouse gas emissions from metal production: gaps and opportunities towards climate goals
R Yokoi, T Watari, M Motoshita
Energy & Environmental Science 15 (1), 146-157, 2022
592022
Global metal use targets in line with climate goals
T Watari, K Nansai, D Giurco, K Nakajima, B McLellan, C Helbig
Environmental science & technology 54 (19), 12476-12483, 2020
562020
Sustainable energy transitions require enhanced resource governance
T Watari, K Nansai, K Nakajima, D Giurco
Journal of Cleaner Production 312, 127698, 2021
522021
Integrating Circular Economy Strategies with Low-Carbon Scenarios: Lithium Use in Electric Vehicles
T Watari, K Nansai, K Nakajima, BC McLellan, E Dominish, D Giurco
Environmental Science & Technology, 2019
412019
Global copper cycles and greenhouse gas emissions in a 1.5 C world
T Watari, S Northey, D Giurco, S Hata, R Yokoi, K Nansai, K Nakajima
Resources, Conservation and Recycling 179, 106118, 2022
352022
International inequality in in-use metal stocks: What it portends for the future
T Watari, R Yokoi
Resources Policy 70, 101968, 2021
302021
Limited quantity and quality of steel supply in a zero-emission future
T Watari, S Hata, K Nakajima, K Nansai
Nature Sustainability 6 (3), 336-343, 2023
252023
Contraction and convergence of in-use metal stocks to meet climate goals
T Watari, K Nansai, K Nakajima
Global Environmental Change 69, 102284, 2021
182021
A review of gold production, mercury consumption, and emission in artisanal and small-scale gold mining (ASGM)
Y Cheng, T Watari, J Seccatore, K Nakajima, K Nansai, M Takaoka
Resources Policy 81, 103370, 2023
112023
Current state of building demolition and potential for selective dismantling in Vietnam
NH Hoang, T Ishigaki, T Watari, M Yamada, K Kawamoto
Waste Management 149, 218-227, 2022
72022
Feasible supply of steel and cement within a carbon budget is likely to fall short of expected global demand
T Watari, A Cabrera Serrenho, L Gast, J Cullen, J Allwood
Nature Communications 14 (1), 7895, 2023
62023
Responsibility of Consumers for Mining Capacity: Decomposition Analysis of Scarcity-weighted Metal Footprints in the Case of Japan
R Yokoi, K Nansai, K Nakajima, T Watari, M Motoshita
iScience, 102025, 2021
62021
Growing role of concrete in sand and climate crises
T Watari, Z Cao, AC Serrenho, J Cullen
iScience 26 (5), 106782, 2023
52023
China’s bulk material loops can be closed but deep decarbonization requires demand reduction
L Song, S van Ewijk, E Masanet, T Watari, F Meng, JM Cullen, Z Cao, ...
Nature Climate Change 13 (10), 1136-1143, 2023
42023
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