Lithium Process Chemistry

Professor Alexandre Chagnes has an extensive background in electrochemistry and hydrometallurgy, having worked in France and Canada before becoming an Associate Professor at Chimie Paristech from 2005 to 2016. Since 2016, he has been a Full Professor at Université de Lorraine, where he has held several leadership roles, including Director of the national network on extractive metallurgy and Director of the Research Program on Circular Economy. He founded the start-up WEEEMET, focusing on innovative metal recycling processes. His research primarily targets recycling lithium-ion batteries and e-waste, with significant contributions through publications and talks. Dr. Jolanta Światowska is a CNRS Research Director at the Institut de Recherche de Chimie Paris since 2008 and deputy director of the Doctoral School of Physical and Analytical Chemistry. She earned her PhD in Metallurgy in 2003 from AGH University in Poland. A member of several professional societies, she serves as a scientific expert for the European Commission and various national funding institutions. Her research focuses on surface chemistry, corrosion, and electrochemistry, utilizing advanced techniques like X-ray Photoelectron Spectroscopy. She has published over 100 papers and contributed to more than 125 conference presentations, collaborating on projects related to energy storage materials.

1. Global Lithium Resources and Sustainability Issues

Patrice Christmann, Eric Gloaguen, Jean-François Labb_e, J_er_emie Melleton, Patrice Piantone

2. Fundamentals in Electrochemistry and Hydrometallurgy

Alexandre Chagnes

1. Fundamentals in Lithium-Ion Batteries

2. Fundamentals in Hydrometallurgy

3. Lithium Production Processes

Tam Tran, Van T. Luong

1. Introduction

2. Lithium Production Processes

3. New Project Development

4. Conclusions

4. Lithium Battery Technologies: From the Electrodes to the Batteries

Jolanta _Swiatowska, Philippe Barboux

1. Introduction

2. Battery Components and Electrode Limitations

3. Positive Electrode (Cathode) Materials

4. Negative Electrode (Anode) Materials

5. Separator and Current Collectors

6. Interface Chemistry in LiBs

5. Lithium Battery Technologies: Electrolytes

Alexandre Chagnes

1. Introduction

2. Liquid Electrolytes

3. Polymer Electrolytes

4. Anodic Stability of Liquid Electrolytes

5. Electrolyte Wettability

6. Conclusion

6. Perspectives in Lithium Batteries

Philippe Poizot, Franck Dolhem, Joël Gaubicher, St_even Renault

1. Introduction

2. Potential of Li-sulfur Batteries

3. Li-oxygen System for Ultrahigh-energy Density Batteries

4. Li-aqueous Batteries

5. Greener Opportunities Offered by Organic Batteries

7. Lithium Batteries Recycling

Christian Ekberg, Martina Petranikova

1. Introduction

2. Characterization of Spent LIBs Waste

3. Recycling of Spent Portable LiBs

4. Industrial Technologies for Spent LIBs Recycling

5. Conclusion

8. Life Cycle and Sustainability

Daniel Belchí Lorente, Guillaume Mandil, Lenka Svecova, Pierre-Xavier Thivel,

Peggy Zwolinski

1. Introduction

2. LCA Applied to LIBs "Concept, Method, and Key Results"

3. From Recycling Process Definition to Sustainable Industrial Solutions