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10. Carbon footprint distributions of lithium-ion batteries and their materials. (2024). Wood, Vanessa ; Pfister, Stephan ; Schatzmann, Karin ; Schenker, Vanessa ; Peiseler, Leopold ; Schmidt, Tobias.
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11. Generative learning assisted state-of-health estimation for sustainable battery recycling with random retirement conditions. (2024). Cao, Tingwei ; Chang, Heng ; Ji, Haocheng ; Tao, Shengyu ; Ma, Ruifei ; Lu, Minyan ; Zhou, Guangmin ; Yang, Huixiong ; Xu, Tingyang ; Zhao, Zixi ; Wen, Zongguo ; Yao, Jianhua ; Su, Lin ; Yu, Rong ; Chen, Yuou ; Wei, Guodan ; Liu, Haizhou ; Liang, Zheng ; Zhang, Xuan.
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18. Implementing circular business models for the second‐life battery of electric vehicles: Challenges and enablers from an ecosystem perspective. (2024). Chirumalla, Koteshwar ; Wallin, Fredrik ; Dahlquist, Erik ; Johansson, Glenn ; Toorajipour, Reza.
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19. Sustainability-Linked Loans for EV Manufacturers: An Emerging Trend in Banking. (2024). Mohd, Fatin Nadhrah ; Faiza, Noor ; Mohamad, Maslinawati ; Jusoh, Fatmawati.
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21. The Role of Automotive Flexibility in Supporting the Diffusion of Sustainable Mobility Initiatives: A Stakeholder Attitudes Assessment. (2023). Rosa, Paolo ; Gastaldi, Massimo ; Piccioni, Jacopo ; Dadamo, Idiano.
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22. The Geopolitical Risk and Strategic Uncertainty of Green Growth after the Ukraine Invasion: How the Circular Economy Can Decrease the Market Power of and Resource Dependency on Critical Minerals. (2023). Nygaard, Arne.
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23. Hidden delays of climate mitigation benefits in the race for electric vehicle deployment. (2023). Zheng, Xinzhu ; Sun, Xin ; Zhao, Shaoqiong ; Wolfram, Paul ; Ren, Yue ; Kang, Yifei ; Tang, XU.
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24. Trade-off between critical metal requirement and transportation decarbonization in automotive electrification. (2023). Zhao, Xiang ; Sacchi, Romain ; You, Fengqi ; Zhang, Chunbo.
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25. China’s electric vehicle and climate ambitions jeopardized by surging critical material prices. (2023). Sun, Laixiang ; Feng, Kuishuang ; Li, Jiashuo ; Wang, Hetong ; Yang, Fan ; Zhang, Yiyi ; Chen, Wei-Qiang.
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26. The electric vehicle revolution: critical material supply chains, trade and development. (2023). Nguyen-Tien, Viet ; Elliott, Robert ; Jones, Benjamin.
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27. Analysing policy change towards the circular economy at the example of EU battery legislation. (2023). Barkhausen, Robin ; Fick, Katharina ; Rohde, Clemens ; Durand, Antoine.
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28. Critical systemic risk sources in global lithium-ion battery supply networks: Static and dynamic network perspectives. (2023). Lim, Ming K ; Teng, Limin ; Wang, Heming ; Yao, Cuiyou ; Zhang, Chao ; Hu, Xiaoqian ; Chen, Wei-Qiang ; Ghadimi, Pezhman.
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29. Internal spillover effect of carbon emission between transportation sectors and electricity generation sectors. (2023). Zhou, Xi-Yin ; Khu, Soon-Thiam ; Lei, Kun ; Yang, Junfeng ; Zheng, Jialin ; Fu, Jiafeng ; Xu, Zhicheng.
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30. Dynamic material flow analysis of antimony resources in China. (2023). Geng, Yong ; Li, Wenxiu ; Bleischwitz, Raimund ; Zhao, Guimei.
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31. Material efficiency strategies across the industrial chain to secure indium availability for global carbon neutrality. (2023). Zuo, Lyushui ; Sun, Kun ; Song, Huiling ; Geng, Hongjun ; Wang, Chang.
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32. The slow-release effect of recycling on rapid demand growth of critical metals from EV batteries up to 2050: Evidence from China. (2023). Dong, Xuesong ; Chen, Jinyu ; Huang, Jianbai ; Zeng, Anqi.
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33. Cointegration between high base metals prices and backwardation: Getting ready for the metals super-cycle. (2023). Labeaga, Jose ; Martin-Garcia, Rodrigo ; Galan-Gutierrez, Juan Antonio.
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34. Resilience assessment of the cobalt supply chain in China under the impact of electric vehicles and geopolitical supply risks. (2023). Li, Xin ; Liu, Wei ; Wang, Minxi.
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35. Data-driven simulation-based planning for electric airport shuttle systems: A real-world case study. (2023). Wang, Qichao ; Lunacek, Monte ; Kelly, Kenneth J ; Sigler, Devon ; Phillips, Caleb ; Kotz, Andrew ; Liu, Zhaocai ; Garikapati, Venu.
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36. Breaking it down: A techno-economic assessment of the impact of battery pack design on disassembly costs. (2023). Nguyen-Tien, Viet ; Elliott, Robert ; Lander, Laura ; Edge, Jacqueline S ; Offer, Gregory J ; Kendrick, Emma ; Tagnon, Chris ; Abbott, Andrew P.
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37. State of health estimation of lithium-ion batteries with a temporal convolutional neural network using partial load profiles. (2023). Lorentz, Vincent ; Bockrath, Steffen ; Pruckner, Marco.
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38. The electric vehicle revolution: Critical material supply chains, trade and development. (2023). Elliott, Robert ; Nguyentien, Viet ; Jones, Benjamin.
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39. Technological options and design evolution for recycling spent lithium‐ion batteries: Impact, challenges, and opportunities. (2023). Sahajwalla, Veena ; Sarkar, Montajar ; Hossain, Rumana.
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40. Impacts of shared mobility on vehicle lifetimes and on the carbon footprint of electric vehicles. (2022). Morfeldt, Johannes.
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41. The impacts of critical metal shortage on Chinas electric vehicle industry development and countermeasure policies. (2022). Hao, Yawei ; Li, Yaoming ; Tang, Yanyan ; Zhang, QI ; Liu, Jiangfeng.
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42. Running battery electric vehicles with extended range: Coupling cost and energy analysis. (2022). Yang, Chen.
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43. Circular economy and resilience: A research agenda. (2022). Kennedy, Steve ; Linnenluecke, Martina K.
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44. Advances of 2nd Life Applications for Lithium Ion Batteries from Electric Vehicles Based on Energy Demand. (2021). Bilge, Pinar ; Dietrich, Franz ; Wewer, Aleksandra.
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45. Life cycle assessment of lithium‐ion battery recycling using pyrometallurgical technologies. (2021). Anderson, Paul A ; Heidrich, Oliver ; Rajaeifar, Mohammad Ali ; Raugei, Marco ; Steubing, Bernhard ; Hartwell, Anthony.
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46. The EV Revolution: Critical Material Supply Chains, Trade, and Development. (2021). Nguyen-Tien, Viet ; Elliott, Robert ; Jones, Benjamin.
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