Sulfation Roasting Mechanism for Spent Lithium-Ion Battery Metal Oxides Under SO2-O2-Ar Atmosphere
Junjie Shi,Chao Peng,Min Chen,Yun Li,Hurman Eric,Lassi Klemettinen,Mari Lundström,Pekka Taskinen,Ari Jokilaakso +8 more
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In this paper, the reaction mechanism of the sulfation roasting of synthetic LiCoO2 was investigated by both thermodynamic calculations and roasting experiments under flowing 10% SO2-1% O2-89% Ar gas atmosphere at 700°C.Abstract:
Sulfation roasting followed by water leaching has been proposed as an alternative route for recycling valuable metals from spent lithium-ion batteries (LIBs). In the present work, the reaction mechanism of the sulfation roasting of synthetic LiCoO2 was investigated by both thermodynamic calculations and roasting experiments under flowing 10% SO2-1% O2-89% Ar gas atmosphere at 700°C. The products and microstructural evolution processes were characterized by x-ray diffraction, scanning electron microscope and energy dispersive x-ray spectrometer, and atomic absorption spectroscopy. It was confirmed that Co3O4 was formed as an intermedia product, and the final roasted products were composed by Li2SO4, Li2Co(SO4)2, and CoO. The leaching results indicated that 99.5% Li and 17.4% Co could be recovered into water after 120 min of roasting. The present results will provide the basis and solid guidelines for recycling of Li and Co from spent LIBs.read more
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Pyrometallurgical options for recycling spent lithium-ion batteries: A comprehensive review
TL;DR: A comprehensive overview of the current status of pyrometallurgical options for recycling spent lithium-ion batteries can be found in this article, which summarizes the thermal pretreatment methods used to recover the active cathode material.
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Recycling of Lithium‐Ion Batteries—Current State of the Art, Circular Economy, and Next Generation Recycling
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Electrochemical Relithiation for Direct Regeneration of LiCoO2 Materials from Spent Lithium-Ion Battery Electrodes
TL;DR: In this article, an electrochemical relithiation method was proposed to directly regenerate LiCoO₂ cathode materials using the waste LiₓCoO electrode as a base.
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Pyrometallurgical Technology in the Recycling of a Spent Lithium Ion Battery: Evolution and the Challenge
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Pretreatment options for the recycling of spent lithium-ion batteries: A comprehensive review
TL;DR: The authors provides an overview of the current pretreatment methods employed in the recycling of spent lithium-ion batteries and provides recommendations for future research and development that will enable more efficient and cleaner technologies for recycling spent lithium ion batteries.
References
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TL;DR: This year, the battery industry celebrated the 25th anniversary of the introduction of the lithium ion rechargeable battery by Sony as discussed by the authors, which used a combination of lower temperature carbons for the negative electrode to prevent solvent degradation and lithium cobalt dioxide modified somewhat from Goodenough's earlier work.
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TL;DR: In this paper, the current status of spent lithium-ion battery recycling is summarized in light of the whole recycling process, especially focusing on the hydrometallurgy, which is used to extract metals or separate impurities from a specific waste stream so that the recycled materials or compounds can be further prepared by incorporating principles of materials engineering.
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