PDF) May Material Bottlenecks Hamper the Global Energy Transition Towards the 1.5°C Target?
PDF) May Material Bottlenecks Hamper the Global Energy Transition Towards the 1.5°C Target?
Material requirements for low-carbon energy technologies: A quantitative review - ScienceDirect
Material requirements for low-carbon energy technologies: A quantitative review - ScienceDirect
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May material bottlenecks hamper the global energy transition towards the 1.5 °C target? - ScienceDirect
World Energy Transitions Outlook 2022
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Platinum demand and potential bottlenecks in the global green transition: a dynamic material flow analysis - NERC Open Research Archive
Analysis of material flow among multiple phases of cobalt industrial chain based on a complex network - ScienceDirect
Investigating zirconium flows and stocks in China: A dynamic material flow analysis - ScienceDirect
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Global Flows of Critical Metals Necessary for Low-Carbon Technologies: The Case of Neodymium, Cobalt, and Platinum
Sustainability of emerging energy and transportation technologies is impacted by the coexistence of minerals in nature
PDF) Platinum Demand and Potential Bottlenecks in the Global Green Transition: A Dynamic Material Flow Analysis