Recent progress on sustainable recycling of spent lithium-ion battery: Efficient and closed-loop regeneration strategies for high-capacity layered NCM cathode materials

Concerns over non-renewable metal resources and environmental degradation are growing as a result of the exponential increase of market dominance of Lithium (Li)-ion batteries in energy storage devices, for example electric automobile. As one of the leading materials of Li-ion battery-LiNixCoyMnzO2 (NCM), the regenerated technology of NCM has received lots of attention in recent years due to the extreme scarcity of transition metals. The regeneration strategies are innovatively divided into indirect regeneration strategy and direct regeneration strategy according to the damage of cathode material of NCM in the regeneration process. After introducing the pretreatment process and common leaching reagents, the co-precipitation and sol-gel indirect regeneration methods and their respective advantages and disadvantages are summarized. In contrast, based on the degra-dation mechanism of NCM cathode materials, solid-state and hydrothermal direct regeneration strategies are summed up. Further, some emerging direct regeneration strategies such as Li-based eutectic molten salt, novel coating strategies, and electrochemical methods are discussed. Finally, these methods are systematically sum-marized and compared, and the prospect of future NCM battery regeneration is proposed to accelerate the re-covery and application of cathode materials on an industrial scale.