Lithium-ion battery recycling relieves the threat to material scarcity amid China’s electric vehicle ambitions
Bin Zhang, Qingyao Xin, Siyuan Chen, Bo Wang, Hao Li, Zhaohua Wang, Prateek Bansal
Abstract
The electric automotive transition is crucial for achieving carbon neutrality, especially in emerging economies like China. However, the scarcity of critical materials in lithium-ion batteries (LIBs) challenges electric vehicle (EV) deployment targets. Our work delivers a comprehensive framework of EV battery recycling, considering resource compensation, environmental performance, geospatial optimization, and cost feasibility of closed-loop LIB recycling under China’s carbon neutrality. Our findings show that meeting EV deployment targets will widen the supply-demand gap, with cobalt and manganese demand exceeding 2022 production levels by 54-fold and 116-fold, respectively. Battery recycling is crucial for mitigating material scarcity, necessitating a minimum 84% collection rate to stabilize supply by 2060. Battery recycling remains economically viable in most scenarios, generating a net profit of US$58 billion in the optimal scenario. Here, our work underscores inherent trade-offs among integrated metrics, informing battery recycling strategies to strengthen supply chain resilience and advance automotive electrification under decarbonization goals. This study assesses the material, environmental, and economic performance of closed-loop lithium-ion battery (LIB) recycling amid China’s electric vehicle ambitions, indicating that a minimum 84% LIB collection rate is needed to stabilize material supply.