Li-ion batteries (LIB) are the dominant energy storage technology and present in electrified transportation, electronic devices as well as robotics. This is due to their high energy density (300 watt-hours per kilogram), low self-discharge (1.5-2% per month), long storage life (10 years) and cyclability (500-2000 cycles). Unfortunately, these batteries require the use of scarce, toxic and unethically resourced materials for their fabrication. Furthermore, it is expected an increase of 26 million units of LIB on electric vehicles by 2030 generating a large amount of waste in a very near future. However, those end-of-life batteries can be considered an important source of metals and materials (electrolytes, binders, anodes) to be reused in other applications or incorporated in the battery supply chain. This also pushes the need to redesign the LIB components and other sustainable technologies using low-cost materials. The focus of this symposium is to bring together experts from around the world to discuss the latest advancements in sustainability of battery technologies and their impact on the future landscape of our society and environment. During the symposium, speakers will present recent research and developments in solving future and present problems derived from the exponential demand of LIB manufacturing
- Redesign of sustainable binders, electrode and electrolytes
- Recycling energy storage materials
- Reuse of battery cathodes for electrocatalysis
- Sustainable materials & technologies
Dr. Fellinger is Head of the Division 3.6 Electrochemical Energy Materials at the German Federal Institute for Materials Research and Testing (BAM). He is a nanostructure and molecular scientist by training (diploma at University of Kassel, DE), who received his PhD in colloid chemistry (with summa cum laude) at the University of Potsdam/DE under the direct supervision of Prof. Markus Antonietti in 2011. After a short postdoctoral stays at the Tokyo Institute of Technology (Prof. Ichiro Yamanaka) he was a research group leader at the Max Planck Institute for Colloids and Interfaces in Potsdam-Golm (2012-2017). In 2016/17 he was an awarded Researcher-in-Residence at Chalmers Institute of Technology in Gothenburg (Prof. Anders Palmqvist), followed by one term as W2-substitute professor for inorganic chemistry at the University of Applied Science Zittau/Görlitz. Afterwards until 2020 he joined Prof. Hubert Gasteiger´s Chair for Technical Electrochemistry (Technical University Munich) with a fuel cell project. In 2020 Dr. Fellinger´s group joined the Federal Institute for Materials Research and Testing (BAM) in Berlin. Dr. Fellinger received the Donald-Ulrich Award 2017 of the International Sol-Gel Society and the Ernst-Haage Award for Chemistry of the Max-Planck Institute for Chemical Energy Conversion. His research interests are the synthetic chemistry of novel materials and their usage in energy-related applications with a focus on different carbon-based materials like nitrogen-doped carbons, M-N-C catalysts or hard carbon anodes. He has published ~60 articles in peer-reviewed journals (>6000 citations, H-index: 41).
A/Prof. Pozo-Gonzalo is a CSIC Principal Researcher, working at the Carboquimica Institute (Spain) and an honorary Associate Professor at Deakin University (Melbourne) working on sustainable energy storage materials and technologies. She attained her Degree and honours at the University of Zaragoza (Spain). After graduating, she received her PhD degree in Chemistry from the University of Manchester (United Kingdom) working with Prof. Peter J. Skabara on the electrochemical synthesis of Conducting Polymers. From 2004, she joined the Centre for Electrochemical Technologies in San Sebastian, (Spain) as the Head of Electrooptical unit where she stayed for 7 years. After moving to Australia, she has been working with Prof. Alan Bond at Monash University and in 2012 she joined Deakin University where she has been working in reversible metal air battery with advanced electrolytes, ionic liquids funded by ARC Centre of Excellence for Electromaterials Science (ACES).
Since 2018, she has been focusing on circular economy in energy materials, working on the recovery of critical raw materials from end of life devices using sustainable methods, as well as redesign of materials for energy. At Deakin University, she is also a theme champion for energy materials as part of the University’s Circular Economy mission pillar. She is a board member of the Journal Sustainable Chemistry and Associate Editor of RSC sustainability. During her research career, she has authored and co-authored 112 peer-review international publications, 3 book chapters and holds 5 patents, in the areas of electrochemistry, circular economy and energy storage. She has supervised 11 Postdoctoral Research Fellows, 14 PhD students (9 to completion, 5 current), and 11 undergraduate students. She has led a total of 36 projects, 14 of them with industry partners, and 5 prestigious European funded projects within different calls STRP-FP6, FP7-NMP, RISE generating a total income of more than AU$4M.
Dr Rosa M. Cuéllar-Franca is a Senior Lecturer (Associate Professor) in the Department of Chemical Engineering at The University of Manchester. Prior to her appointment, she held a postdoctoral research position at the same institution for 2.5 years, working on the programme grant “A coordinated comprehensive approach to carbon capture and utilisation” led by the University of Sheffield and funded by the UK’s Engineering and Physical Sciences Research Council. She received her PhD in Chemical Engineering and Analytical Science in 2013 and her MSc in Environmental Technology in 2008 from The University of Manchester, and her Bachelor’s Degree in Chemical Engineering from the Technological Institute of Tijuana, Mexico in 2007.
Her research focuses on the sustainability assessment of novel technologies for climate change mitigation on a life cycle basis, providing quantitative evidence that enables targeted improvements at various system levels, such as molecular and process design, process operation, and policy making. Her work has centred around developing more environmentally sustainable ionic liquids, catalysts, bio-based chemicals and nanomaterials for cleaner technology development. She is an expert in life cycle assessment (LCA), carbon footprinting, and life cycle costing. She is author of over 30 peer-reviewed papers and her recent article on ionic liquids “A life cycle approach to solvent design: Challenges and opportunities for ionic liquids – application to CO2 capture” has won the Reaction Chemistry & Engineering 2021 Outstanding Early Career Paper Award in recognition of her potential to influence future directions in the field.
Dr. Camélia Matei Ghimbeu is a Research Director at Material Science Institute in Mulhouse (IS2M), CNRS, France. She received in 2007 her PhD from University of Metz, France and TU Delft, The Netherlands and her Habilitation in 2015 from University of Haute Alsace, France. She was awarded in 2017 the CNRS Bronze Medal, in 2018 the Award "Solid-State Chemistry Division" (French Chemistry Society) and in 2019 the award Guy Ourisson (Gutenberg Cercle), for her research works devoted to the design of carbon-based materials with controlled characteristics for energy storage and environmental applications. Author of more than 100 articles and about 150 communications, she is leading the “Carbon and Hybrid Materials” group at IS2M, and she is member of French network of Electrochemical Storage of Energy (RS2E).
Dr. Lathe Jones is a Principal Scientist (Investigador Cientifico) at CSIC-ISQCH in Zaragoza (Spain).
His background is in aplied electrochemistry, inorganic chemistyr, and the recovery of metals from ores and waste.
Professor Emma Kendrick, CChem FIMMM FRSC FIMMM - Chair of Energy Materials, School of Metallurgy and Materials, University of Birmingham.
Prof Kendrick’s career to date has included industrial and academic roles leading to her current role as Chair of Energy Materials, where in addition to group lead of the energy materials group (EMG), she is co-director of the Centre for Energy Storage (BCES) and part of Birmingham Energy institute (BEI) and Birmingham Centre for Strategic Elements and Critical Materials (BCSECM). The EMG investigates sustainability in novel battery technologies from materials, manufacturing, performance and parameterisation, and recycling. Her recent work has led to a 2021 joint UoB - Imperial College London (ICL) spin out company, based around the methods of experimental parameterisation of applied multi-physics cell models, called About:Energy, for which she is founder and director.
Prior to UoB, she spent two years as Reader in WMG, University of Warwick. Before academia, she led innovations in the battery industry, latterly as Chief Technologist in Energy Storage at SHARP Laboratories of Europe Ltd (SLE) and prior to that for two lithium-ion battery SMEs, Fife Batteries Ltd and Surion Energy Ltd.
She is fellow of the Royal Society of chemistry (RSC) and Institute of Metals, Mining and Materials (IoM3). Recently, she has been recognised through several awards; 2021 Faraday Institution (FI) Researcher Development Champion, RSC 2021 Environment, Sustainability and Energy Division Mid-Career Award, and the 2019 Hothersall Memorial Award for outstanding services to Metal Finishing.
Prof Kendrick holds a PhD from Keele University, obtained as part of a postgraduate transfer partnership (PTP) scheme with CERAM Research, a MSc in new materials from the University of Aberdeen and a BSc in chemistry from the University of Manchester.
Nicolas Schaeffer is an assistant researcher at CICECO - Aveiro Institute of Materials (University of Aveiro, Portugal). He received his PhD in Environmental Engineering from Imperial College in 2017 and is now working as an assistant researcher at CICECO. He is the recipient of an ERC starting grant (DESignSX - Grant agreement ID: 101116461) and his leading a work package on the recycling of LIBs in collaboration with industry. His research focuses on the understanding and development of new solvents for improved hydrometallurgical separation of metals, with a focus on solvent extraction and the forces driving selectivity.
Marta Sevilla is a Scientific Investigator at the Institute of Carbon Science and Technology, which belongs to the Spanish National Research Council (CSIC). She obtained her PhD degree from the University of Oviedo/INCAR in 2008 working on the development of novel carbon materials for energy storage (supercapacitors) and energy conversion (electrocatalysts for the anode of fuel cells). After several research stays in the University of Nottingham, Max-Planck Institute of Colloids and Interfaces, and Georgia Institute of Technology, she got a permanent position at INCAR-CSIC.
Since 2012 se has focused her research on the development of advanced carbon-based materials through sustainable routes for their use in energy storage devices, including supercapacitors, Li-S batteries and hybrid ion capacitors, energy conversion (ORR electrocatalysts) and gas storage (CO2 and H2). She has co-authored ca. 130 peer-reviewed papers.