1 - Preface [Seite 5]
2 - Contents [Seite 7]
3 - About the Editors [Seite 11]
4 - Part I Lithium, Cobalt, Rare Earth Metals [Seite 16]
5 - 1 Development of a Physiochemical Model Combined with an Engineering Model for Predicting Solvent Extraction Performances Within the Context of Lithium-Ion Battery Recycling [Seite 17]
6 - 2 A Fundamental Investigation of Li?CO? Crystallization from Li?SO? System [Seite 24]
7 - 3 Recycling of End-of-Life Lithium-Ion Battery of Electric Vehicles [Seite 35]
8 - 4 Optimal Hydrometallurgical Extraction Conditions for Lithium Extraction from a Nigerian Polylithionite Ore for Industrial Application [Seite 45]
9 - 5 Selective Lithium Recovery from Brines Using Hydrothermally Treated Titania Slag [Seite 58]
10 - 6 Molecular Recognition Approach to REE Extraction, Separation, and Recycling [Seite 68]
11 - 7 Production of Energy Saving Materials from the Waste Mixtures of REEs [Seite 78]
12 - 8 Selective Recovery of Scandium from Nickel Laterite Ore by Acid Roasting-Water Leaching [Seite 88]
13 - Part II Rare Earth Metals [Seite 102]
14 - 9 Supercritical Fluid Extraction of Rare Earth Elements from Waste Fluorescent Lamp [Seite 103]
15 - 10 Supercritical Fluid Extraction of Rare-Earth Elements from a Canadian Ore [Seite 116]
16 - 11 Optimizing Zr and REE Recovery from Zircon Through a Better Understanding of the Mechanisms Governing Its Decomposition in Alkali Media [Seite 128]
17 - 12 An Innovative Process for Extracting Scandium from Nickeliferous Laterite Ore [Seite 137]
18 - 13 Recovery of Strategic Materials from Canadian Bauxite Residue by Smelting Followed by Acid Baking-Water Leaching [Seite 146]
19 - 14 Separation of Neodymium and Dysprosium by Molten Salt Electrolysis Using an Alloy Diaphragm [Seite 158]
20 - Part III PGM, Zn, V, Ti, U, Th, In, Ag, Fe [Seite 164]
21 - 15 Electrodialysis in Hydrometallurgical Processes [Seite 165]
22 - 16 Leaching of Eudialyte-The Silicic Acid Challenge [Seite 174]
23 - 17 Co-precipitation of Impurity (Ti, Fe, Al, Zr, U, Th) Phases During the Recovery of (NH?)?ScF? from Strip Liquors by Anti-solvent Crystallization [Seite 181]
24 - 18 Impurity Uptake During Cooling Crystallization of Nickel Sulfate [Seite 194]
25 - 19 Potential of a Nigerian Cassiterite Ore for Industrial Steel Coatings [Seite 203]
26 - 20 The Iron Precipitate from Primary Zinc Production: A Potential Future Source for Indium and Silver [Seite 211]
27 - 21 Recovery of Platinum Group Metals From Secondary Sources by Selective Chlorination from Molten Salt Media [Seite 223]
28 - 22 Study on the Mechanisms for Vanadium Phases' Transformation of Vanadium Slag Non-salt Roasting Process [Seite 236]
29 - 23 Reclamation of Precious Metals from Small Electronic Components of Computer Hard Disks [Seite 244]
30 - Part IV V, Mn, Co, Zn, Mo, Cu, REEs [Seite 252]
31 - 24 Study on Vanadium Phase Evolution Law in Vanadium Slag During the Interface Reaction Process of Sodium Roasting [Seite 253]
32 - 25 Indian Coal Ash: A Potential Alternative Resource for Rare Earth Metals (REMs) [Seite 265]
33 - 26 Recovery of Manganese and Cobalt from Discarded Batteries of Toys [Seite 274]
34 - 27 Zinc in Secondary Dust of Rotary Hearth Furnace Recovered by Water Leaching and Acid Leaching [Seite 281]
35 - 28 Phosphate-Intensified Alkali Leaching to Recover Molybdenum from a Volatilizing Residue [Seite 293]
36 - 29 Extraction of Rare and High-Valued Metals from Blast Furnace Dust [Seite 303]
37 - 30 Mechanism of Extraction of Vanadium from Vanadium Slag with MgO [Seite 314]
38 - 31 Effect of Sulfuric Acid Concentration on Marmatite Dissolution in the Presence of Cupric Ions [Seite 322]
39 - 32 Recovery of Rare Earth Elements from Waste Permanent Magnets Leach Liquors [Seite 332]
40 - Part V Poster Session [Seite 343]
41 - 33 A Novel Depressant of Sodium Polyacrylate for Magnesite Flotation [Seite 344]
42 - 34 Dissolution Behavior of Calcium Vanadates and Magnesium Vanadates in Sulfuric Acid [Seite 352]
43 - 35 PRICE-PRocess Industries in the Circular Economy [Seite 360]
44 - 36 Reductive Leaching of Indium-Bearing Zinc Leaching Residue in Sulfuric Acid and Sulfur Dioxide [Seite 364]
45 - Author Index [Seite 374]
46 - Subject Index [Seite 376]
