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BL
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| Record Number
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862965
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| Title & Author
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Recycling of spent lithium-ion batteries : : processing methods and environmental impacts /\ Liang An, editor.
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| Publication Statement
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Cham :: Springer,, 2019.
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| Page. NO
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1 online resource (219 pages)
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| ISBN
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3030318338
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: 3030318346
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: 3030318354
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: 3030318362
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: 9783030318338
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: 9783030318345
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: 9783030318352
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: 9783030318369
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9783030318338
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| Notes
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6.1 Fungal Metabolite: Organic Acids
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| Contents
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Intro; Preface; Contents; Recycling Technology and Principle of Spent Lithium-Ion Battery; 1 Introduction; 2 Environmental Risk of Spent Lithium-Ion Battery; 3 Treatment of Spent Lithium-Ion Battery; 3.1 Separation of Electrode Materials for Spent Lithium-Ion Batteries; 3.2 High-Value Refining Technology; 4 Cascade Utilization of Spent LIBs; References; Hydrometallurgically Recycling Spent Lithium-Ion Batteries; 1 Introduction; 2 Leaching; 2.1 Leaching Mechanism; 2.2 Inorganic Acid Leaching; 2.3 H2SO4 Leaching; 2.4 HCl Leaching; 2.5 Other Inorganic Acid Leaching; 2.6 Organic Acid Leaching
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2.7 Alkaline Leaching3 Purification and Recovery; 3.1 Solvent Extraction; 3.2 Chemical Precipitation and Electrodeposition; 3.3 Regeneration; References; Pyrometallurgical Routes for the Recycling of Spent Lithium-Ion Batteries; 1 Introduction; 2 Key Components of LIBs; 3 Calcination and Roasting; 3.1 Calcination; 3.2 Roasting; 4 Oxide Reduction and Smelting; 4.1 Oxide Reduction; 4.2 Smelting; 5 Metal Refining; 5.1 Metal-Slag Process; 5.2 Metal-Metal Process; 5.3 Metal-gas Process; 6 Regeneration of Cathode Materials; 7 Furnaces; 8 Conclusions; References
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4.1 Re-Preparation of Cathode Materials by Co-precipitation Method4.2 Re-Preparation of Cathode Materials by Sol-Gel Method; 4.3 Direct Regeneration of Cathode Materials; 4.4 Discussion of Current Regeneration Processes; 5 Conclusions; References; High Value-Added Products From Recycling of Spent Lithium-Ion Batteries; 1 Introduction; 2 Pure Metals and Metal Compounds; 2.1 Pure Metals; 2.2 Metal Compounds; 3 Electrode Materials; 3.1 LiCoO2 Cathode Material; 3.2 Li(Co-Mn-Ni)O2 Cathode; 3.3 LiFePO4 Cathode; 4 Other Functional Materials; 4.1 Magnetic Materials; 4.2 Electrocatalytic Materials
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4.3 Photocatalytic Materials4.4 Adsorbents; 5 Summary and Outlook; References; Bio-hydrometallurgical Methods For Recycling Spent Lithium-Ion Batteries; 1 Introduction; 2 Spent LIBs Management; 2.1 Environmental Aspect; 2.2 Economical Aspect; 3 Recycling Methods of Spent LIBs; 3.1 Comparison of Recycling Methods; 4 Bioleaching (Microbial-Based Recovery); 4.1 Adaptation: A Tool for Improving One-Step and Two-Step Bioleaching; 5 Microbes in Bioleaching; 5.1 Autotrophic Bacteria; 5.2 Heterotrophic Bacteria and Fungi; 5.3 Comparison of Bacterial and Fungal Leaching; 6 Fungal Leaching
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Bio-hydrometallurgically Treatment of Spent Lithium-Ion Batteries1 Introduction; 2 Mechanisms of Bio-Hydrometallurgy; 3 Impacts on Recovery Efficiency; 4 Pros and Cons of Bio-Hydrometallurgy; 5 Summary and Outlook; References; Hydrometallurgical Processes for Valuable Metals Recycling from Spent Lithium-Ion Batteries; 1 Introduction; 2 Leaching Processes; 2.1 Chemical Leaching; 2.2 Bioleaching Process; 3 Separation and Recovery Processes; 3.1 Chemical Precipitation; 3.2 Solvent Extraction; 3.3 Other Separation Methods; 4 Regeneration of Cathode Materials
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| Abstract
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This book presents a state-of-the-art review of recent advances in the recycling of spent lithium-ion batteries. The topics covered include: introduction to the structure of lithium-ion batteries; development of battery-powered electric vehicles; potential environmental impact of spent lithium-ion batteries; pretreatment of spent lithium-ion batteries for recycling processing; pyrometallurgical processing for recycling spent lithium-ion batteries; hydrometallurgical processing for recycling spent lithium-ion batteries; direct processing for recycling spent lithium-ion batteries; high value-added products from recycling of spent lithium-ion batteries; and effects of recycling of spent lithium-ion batteries on environmental burdens. The book provides an essential reference resource for professors, researchers, and policymakers in academia, industry, and government around the globe.
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| Subject
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Lithium ion batteries-- Recycling.
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Energy storage.
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Environmental sciences.
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Force and energy.
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Materials science.
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Sustainable development.
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| Dewey Classification
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621.31/2424
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| LC Classification
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TK2945.L58
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| Added Entry
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An, Liang.
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