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Reviving Fatigue Surface for Solid‐State Upcycling of Highly Degraded Polycrystalline LiNi<sub>1‐x‐y</sub>Co<sub>x</sub>Mn<sub>y</sub>O<sub>2</sub> Cathodes

Min Fan, Xin‐Hai Meng, Hua Guo, Sen Xin, Xin Chang, Kecheng Jiang, Jicheng Chen, Qinghai Meng, Yu‐Guo Guo

2024Advanced Materials58 citationsDOI

Abstract

Abstract The ongoing tide of spent lithium‐ion batteries (LIBs) urgently calls for high‐value output in efficient recycling. Recently, direct regeneration has emerged as a novel recycling strategy but fails to repair the irreversible morphology and structure damage of the highly degraded polycrystalline layered oxide materials. Here, this work carries out a solid‐state upcycling study for the severely cracked LiNi 1‐x‐y Co x Mn y O 2 cathodes. The specific single‐crystallization process during calcination is investigated and the surface rock salt phase is recognized as the intrinsic obstacle to the crystal growth of the degraded cathodes due to sluggish diffusion in the heterogeneous grain boundary. Accordingly, this work revives the fatigue rock salt phase by restoring a layered surface and successfully reshapes severely broken cathodes into the high‐performance single‐crystalline particles. Benefiting from morphological and structural integrity, the upcycled single‐crystalline cathode materials exhibit an enhanced capacity retention rate of 93.5% after 150 cycles at 1C compared with 61.7% of the regenerated polycrystalline materials. The performance is also beyond that of the commercial cathodes even under a high cut‐off voltage (4.5 V) or high operating temperature (45 °C). This work provides scientific insights for the upcycling of the highly degraded cathodes in spent LIBs.

Topics & Concepts

Materials scienceCathodeCrystalliteChemical engineeringGrain boundaryCrystallizationCalcinationOxidePhase (matter)NanotechnologyMineralogyComposite materialMicrostructureMetallurgyElectrical engineeringEngineeringChemistryOrganic chemistryCatalysisBiochemistryAdvancements in Battery MaterialsExtraction and Separation ProcessesRecycling and Waste Management Techniques
Reviving Fatigue Surface for Solid‐State Upcycling of Highly Degraded Polycrystalline LiNi<sub>1‐x‐y</sub>Co<sub>x</sub>Mn<sub>y</sub>O<sub>2</sub> Cathodes | Litcius