Behaviour of Lithium-Ion Batteries in Electric Vehicles

Prof. Gianfranco Pistoia, Ph.D. is formerly Research Director of the National Research Council of Italy. He has authored 150 papers and 11 patents in the field of electrochemistry, with particular reference to non-aqueous batteries. In the early seventies, he pioneere European research on lithium batteries using new electrodes (e.g. MoO3) and new electrolytes (e.g. ethylene carbonate). He has attended 50+ international conferences with presentation of invited lectures and/or acting as a chairman. The Editor was member of the editorial board of Advanced Battery Technology and is now in the editorial board of Sustainable Energy Developments, a book series of CRC Press. He has often refereed articles for J. Electrochem. Soc., Electrochim. Acta, J. Power Sources, Solid State Ionics as well as several book proposals for Elsevier. In 1993-1995 he has acted as a consultant for Valence Technology (USA): a patent on a new cathode for lithium-ion batteries was issued in 2001 following this cooperation. Dr. Boryann (Bor Yann) Liaw is manager of the Energy Storage and Advanced Vehicles Department at Idaho National Laboratory. Before joining INL, Dr. Liaw was a specialist and tenured faculty member at the Hawaii Natural Energy Institute of the University of Hawaii at Manoa. At HNEI, he focused on advanced power source systems for vehicle and energy storage applications. He received his bachelor's in chemistry from the National Tsinghua University in Taiwan, his master's in chemistry from the University of Georgia, and his doctorate in materials science and engineering from Stanford University. He conducted his post-doctoral fellowship research at the Max-Plank Institute of Solid State Research in Stuttgart, Germany. For the past three decades, Dr. Liaw has been involved in R&D projects related to electric and hybrid vehicle evaluation and advanced battery diagnostics and prognostics. His major research activities comprise laboratory and real-life battery and vehicle testing, data collection and analysis, battery modeling and simulation, battery performance and life prediction, battery rapid charging technology development, and battery diagnoses and prognoses. He also expanded his endeavors to bio-fuel cells, including sugar-air alkaline battery development, and transforming ambient energy resources into useful power sources for portable or stationary applications. Dr. Liaw has co-authored more than 150 technical papers, seven book chapters, and eight patents and patent applications. He is currently an Associate Editor for the Journal of Electrochemical Society and a Fellow of the Electrochemical Society.

Lithium-Ion Battery Design for Transportation.- The Future of Lithium Availability for Electric Vehicle Batteries.- The Issue of Metal Resources in Li-Ion Batteries for Electric Vehicles.- Will Current Electric Vehicle Policy Lead to Cost-Effective Electrification of Passenger Car Transport?.- Conventional, Battery-Powered and Other Alternative Fuel Vehicles: Sustainability Assessment.- Increasing the Fuel Economy of Connected and Autonomous Lithium-Ion Electrified Vehicles.- Electric Commercial Vehicles in Mid-Haul Logistics Networks.- Mechanical Design and Packaging of Battery Packs for Electric Vehicles.-Advanced Battery-Assisted Quick Charger for Electric Vehicles.- Charging Optimization Methods for Lithium-Ion Batteries.- State of Charge and State of Health Estimation over the Battery Lifespan.- Recycling of Batteries from Electric Vehicles.- Business Models for Repurposing a Second-Life for Retired Electric Vehicle Batteries.