For the future, CO2 Reduction (CO2R) is an attractive option for storing renewable energy and sustainable production of valuable chemicals and fuels. While most low-hanging fruits have been picked in understanding, development and application. This symposium invites frontier contributions that challenge the current state-of-the-art in CO2R, breaching scientific developments with atomistic level theory, fundamental electrochemistry, spectroscopy, materials synthesis and scaleup applied to push the frontier. The symposium also seeks possibilities in utilizing the product distribution from CO2R in various following process steps and in mixes with other reactants. Within these topics the symposium will discuss opportunities for new research activities that ultimately bring us a step closer towards establishing a low- or zero-emission carbon cycle.
- Electrochemistry
- Catalyst developments
- Simulations
- Spectroscopy
- Electrolyzer
Kazuhide Kamiya received his Ph.D. degree from the University of Tokyo and became an assistant professor at the same university in 2013. He then joined Research Center for Solar Energy Chemistry of Osaka University as an assistant professor in April 2016. He was promoted to associate professor at the same center in 2018. He was a researcher of the PRESTO project of JST from 2014 to 2018. His current research interests include the design of efficient electrocatalysts and electrolysis systems for CO2 valorization.
Prof. Magalí Lingenfelder is a PI with an excellent track record and a passion for atomically controlled interfaces. Her work contributes to the design of new materials by elucidating chemical processes by Scanning Probe Microscopies and Surface Sensitive Spectroscopies, including dynamic (bio) molecular recognition processes at the liquid/solid interface.
She created and led for over 10 years the Max Planck-EPFL laboratory for Molecular Nanoscience at EPFL campus in Switzerland, and is currently leading the Helvetia Institute for Science and Innovation.
She studied physical and biological chemistry at the National University of Córdoba in Argentina. In 2003, she finished her MSc thesis at the Max Planck Institute for the Solid State Research (MPI-FKF in Stuttgart, Germany) with seminal contributions to the field of metal-organic coordination networks on solid surfaces. She continued with her doctoral studies in Physics, and received the Otto Hahn medal of the Max Planck Society in 2008 for the microscopic understanding of the chiral recognition process with submolecular resolution. In her quest to study molecular recognition going from 2D to 3D complex systems, she made postdoctoral stays at the Institute of Materials Sciences in Barcelona, and at the Molecular Foundry of the Lawrence Berkeley National Lab in the US.
She is a committed mentor who directed 4 MSc theses, 5 PhD theses, and 5 postdocs. She advocates for problem-oriented interdisciplinary research, by pioneering the emerging field of BioNanoarchitectonics. She led 5 international research consortiums, delivered over 50 invited presentations, and organized 9 conferences and 4 doctoral schools. She and her team had received multiple awards and international recognitions for their creative and rigurous work on molecular recognition, chirality and operando studies at catalytic interfaces. In 2018, the Royal Society of Chemistry included her work in the first collection “Celebrating Excellence in Research: 100 Women of Chemistry”.
Prof. Beatriz Roldán Cuenya is currently Director of the Interface Science Department at the Fritz Haber Institute of the Max Planck Society in Berlin (Germany). She is an Honorary Professor at the Technische Universität Berlin, at the Freie Universität Berlin, and at the Ruhr-University Bochum, all in Germany. Also, she serves as a Distinguished Research Professor at the University of Central Florida (USA).
Prof. Roldán Cuenya began her academic career by completing her M.S./B.S. in Physics with a minor in Materials Science at the University of Oviedo, Spain in 1998. Afterwards she moved to Germany and obtained her Ph.D. from the Department of Physics of the University of Duisburg-Essen with summa cum laude in 2001. Subsequently, she carried out her postdoctoral research in the Department of Chemical Engineering at the University of California Santa Barbara (USA) until 2003.
In 2004, she joined the Department of Physics at the University of Central Florida (UCF) as Assistant Professor where she moved through the ranks to become a full professor in 2012. In 2013 Prof. Roldan Cuenya, moved to Germany to become Chair Professor of Solid State Physics in the Department of Physics at Ruhr-University Bochum until 2017.
During her academic career, Prof. Roldan Cuenya received an Early CAREER Award from the US National Science Foundation (2005) and the international Peter Mark Memorial award from the American Vacuum Society (2009). In 2016 she became Fellow of the Max Planck Society in Germany and also received the prestigious Consolidator Award from the European Research Council. In 2020, she became a member of the Academia Europaea (Academy of Europe). She received the AVS Fellow Award (2021), the International Society of Electrochemistry-Elsevier Prize for Experimental Electrochemistry (2021), the 2022 Paul H. Emmet Award of the North American Catalysis Society, and the Röntgen Medal of the City of Remscheid (2022).
Prof. Dr. Beatriz Roldan Cuenya is the author of 245 peer-reviewed publications, 6 book chapters and 6 patents. She has been supervising 74 postdoctoral fellows and 36 PhD students. She has given 245 invited talks, with 13 plenary talks and 33 keynote lectures since 2017. Her H-factor is 74 (Google Scholar) and her work has received over 21,500 citations.
She presently serves on the editorial advisory boards of the Journal of Catalysis and Chemical Reviews. In addition, she also contributes to a number of advisory committees, including the Liquid Sunlight Alliance (USA), the Advanced Research Center Chemical Building Blocks Consortium (Utrecht, the Netherlands), the Spanish Synchrotron Facility ALBA (Barcelona, Spain), the German Synchrotron DESY (Hamburg, Germany), the Helmholtz-Zentrum Berlin for the strategic development of BESSY II (Berlin, Germany), the Institute of Chemical Research of Catalonia (ICIQ in Tarragona, Spain), the UK Catalysis Hub and the Ertl Center for Electrochemistry & Catalysis (South Korea).
Prof. Roldan Cuenya’s research program explores physical and chemical properties of nanostructures, with emphasis on advancements in nanocatalysis based on operando microscopic and spectroscopic characterization.
Peter Strasser is the chaired professor of �Electrochemistry for energy conversion and storage� at the Chemical Engineering Division of the Department of Chemistry at the Technical University of Berlin. Prior to his appointment, he was Professor at the Department of Chemical and Biomolecular Engineering at the University of Houston. Before moving to Houston, Prof. Strasser served as Senior Member of staff at Symyx Technologies, Inc., Santa Clara, USA. In 1999, Prof. Strasser earned his doctoral degree in Physical Chemistry and Electrochemistry from the �Fritz-Haber-Institute� of the Max-Planck-Society, Berlin, Germany, under the direction of the 2007 Chemistry Nobel Laureate, Professor Gerhard Ertl. In the same year, he was awarded the �Otto-Hahn Research Medal� by the Max-Planck Society. In 1996, Dr. Strasser was visiting scientist with Sony Central Research, Yokohama, Japan. He studied chemistry at Stanford University, the University of Tuebingen, and the University of Pisa, Italy. Professor Strasser is interested in the fundamental Materials Science and Catalysis of electrified liquid solid interfaces, in particular for renewable energy conversion, energy storage, production of fuels and chemicals.