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[HTML][HTML] Modifying milling parameters: Impact on selective separation of lithium-rich phases in a thermodynamically designed battery slag

S Hellmers, H Qiu, B Yagmurlu, A Kwade - Cleaner Engineering and …, 2025 - Elsevier

Slag products resulting from the pyrometallurgical recycling of lithium-ion batteries (LIBs)
exhibit considerable potential as a secondary source of raw materials, particularly regarding …

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Lithium‐Phase Identification in an Industrial Lithium‐Ion‐Battery Recycling Slag: Implications for the Recovery of Lithium

PC Gantz, L Panjiyar, A Neumann… - Advanced Energy …, 2024 - Wiley Online Library

The recycling of lithium‐ion batteries (LIBs) through extractive pyrometallurgy is widely used,
but a significant drawback is the loss of lithium to the slag. To address this, lithium‐bearing …

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[HTML][HTML] The Effect of Plasma Pretreatment on the Flotation of Lithium Aluminate and Gehlenite Using Light-Switchable Collectors

A Zgheib, MH Fischer, SM Tsanang, I El Hraoui… - Separations, 2024 - mdpi.com

The pyridinium phenolate punicine is a switchable molecule from Punica granatum.
Depending on the pH, punicine exists as a cation, neutral molecule, anion, or dianion. In …

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[HTML][HTML] Kinetics of γ-LiAlO₂ Formation out of Li₂O-Al₂O₃ Melt—A Molecular Dynamics-Informed Non-Equilibrium Thermodynamic Study

S Chakrabarty, DA De Abreu, IA Alhafez… - Solids, 2024 - mdpi.com

Slags generated from pyrometallurgical processing of spent Li-ion batteries are reservoirs of
Li compounds that, on recycling, can reintegrate Li into the material stream. In this context, γ …

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S Hellmers, H Qiu, B Yagmurlu, A Kwade - researchgate.net

Slag products resulting from the pyrometallurgical recycling of lithium-ion batteries (LIBs)
exhibit considerable potential as a secondary source of raw materials, particularly regarding …

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Valorization of lithium containing slags from pyrometallurgical recycling route of spent...

[HTML][HTML] Modifying milling parameters: Impact on selective separation of lithium-rich phases in a thermodynamically designed battery slag

Lithium‐Phase Identification in an Industrial Lithium‐Ion‐Battery Recycling Slag: Implications for the Recovery of Lithium

[HTML][HTML] The Effect of Plasma Pretreatment on the Flotation of Lithium Aluminate and Gehlenite Using Light-Switchable Collectors

[HTML][HTML] Kinetics of γ-LiAlO₂ Formation out of Li₂O-Al₂O₃ Melt—A Molecular Dynamics-Informed Non-Equilibrium Thermodynamic Study

[PDF][PDF] Cleaner Engineering and Technology

Valorization of lithium containing slags from pyrometallurgical recycling route of spent...

[HTML][HTML] Modifying milling parameters: Impact on selective separation of lithium-rich phases in a thermodynamically designed battery slag

Lithium‐Phase Identification in an Industrial Lithium‐Ion‐Battery Recycling Slag: Implications for the Recovery of Lithium

[HTML][HTML] The Effect of Plasma Pretreatment on the Flotation of Lithium Aluminate and Gehlenite Using Light-Switchable Collectors

[HTML][HTML] Kinetics of γ-LiAlO2 Formation out of Li2O-Al2O3 Melt—A Molecular Dynamics-Informed Non-Equilibrium Thermodynamic Study

[PDF][PDF] Cleaner Engineering and Technology

[HTML][HTML] Kinetics of γ-LiAlO₂ Formation out of Li₂O-Al₂O₃ Melt—A Molecular Dynamics-Informed Non-Equilibrium Thermodynamic Study