Leaching of Critical Metals from Spent Lithium-Ion Battery Using Acidic Organophosphorus Extractant
Author:
Publisher
Springer Nature Switzerland
Link
https://link.springer.com/content/pdf/10.1007/978-3-031-50236-1_14
Reference12 articles.
1. Chen X, Chen Y, Zhou T, Liu D, Hu H, Fan S (2015) Hydrometallurgical recovery of metal values from sulfuric acid leaching liquor of spent lithium-ion batteries. Waste Manage 38:349–356
2. Chen Z, Zhang W, Yang Z (2019) A review on cathode materials for advanced lithium ion batteries: microstructure designs and performance regulations. Nanotechnology 31(1):012001
3. Dalini EA, Karimi G, Zandevakili S, Goodarzi M (2021) A review on environmental, economic and hydrometallurgical processes of recycling spent lithium-ion batteries. Miner Process Extr Metall Rev 42(7):451–472
4. Garole DJ, Hossain R, Garole VJ, Sahajwalla V, Nerkar J, Dubal DP (2020) Recycle, recover and repurpose strategy of spent Li-ion batteries and catalysts: current status and future opportunities. Chemsuschem 13(12):3079–3100
5. Hawkes SJ (1996) All positive ions give acid solutions in water. J Chem Educ 73(6):516
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