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Advances in Physical Processing of Cathode and Anode Materials from Spent Lithium-Ion Batteries

Author

Listed:
  • Shuangxiang Zeng

    (School of Chemical Engineering and Technology, China University of Mining and Technology, Xuzhou 221116, China)

  • Aoyu Huang

    (School of Chemical Engineering and Technology, China University of Mining and Technology, Xuzhou 221116, China)

  • Lisha Dong

    (Western Australian School of Mines, Curtin University, Kalgoorlie, WA 6430, Australia)

  • Mohamed A. Deyab

    (Egyptian Petroleum Research Institute (EPRI), Nasr City, Cairo 11727, Egypt)

  • Xiangning Bu

    (School of Chemical Engineering and Technology, China University of Mining and Technology, Xuzhou 221116, China)

Abstract

The rapid expansion of lithium-ion battery (LIB) applications and the imminent surge in end-of-life batteries have intensified the demand for efficient, scalable recycling technologies. Physical separation of cathode and anode materials is a crucial pretreatment step that enables high-value metal recovery and direct material regeneration. This review critically examines recent advances in three major physical separation technologies—magnetic separation, gravity separation, and flotation—for processing spent LIB electrodes. Rather than offering a descriptive summary, the review systematically analyzes separation mechanisms, key controlling parameters, and pretreatment strategies across representative cathode chemistries, including LiFePO 4 (LFP), LiCoO 2 (LCO), and Ni–Co–Mn (NCM) systems. Particular emphasis is placed on emerging flotation-enhancement strategies, such as nanobubble-assisted and ultrasonic-enhanced flotation, and their underlying mechanistic roles in improving selectivity and recovery. Comparative evaluation indicates that magnetic separation has reached industrial maturity for LFP–graphite systems but remains chemistry-specific. Gravity separation is effective for coarse particles and centrifugal-assisted graphite recovery yet shows limited selectivity for fine particles. Flotation has become the dominant research focus for complex, fine-particle separations due to its tunable surface chemistry. Despite significant laboratory progress, challenges remain, including incomplete binder removal, limited understanding of electrode surface reconstruction during pretreatment, fine-particle entrainment, and the gap between bench-scale research and industrial implementation. Future research priorities include green reagent development, intelligent separation control, and integration with direct regeneration routes to advance closed-loop LIB recycling towards sustainable development.

Suggested Citation

  • Shuangxiang Zeng & Aoyu Huang & Lisha Dong & Mohamed A. Deyab & Xiangning Bu, 2026. "Advances in Physical Processing of Cathode and Anode Materials from Spent Lithium-Ion Batteries," Sustainability, MDPI, vol. 18(5), pages 1-22, March.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:5:p:2546-:d:1878925
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