There is an urgent need to reduce our global carbon dioxide emissions to mitigate climate change. While low-cost electricity from solar and wind provides exciting opportunities to reduce emissions, converting electricity to efficient carbon-free or carbon-neutral energy carriers at scale such as stored electrons, fuels and heat remains challenging to deep decarbonization. Electrochemical reactions are central to electrification via batteries, electrolysis in making decarbonized chemicals, fuels and materials, and negative emission technologies, which represent three important capabilities to connect electricity with our energy demands. Fundamental research on surface and molecular sciences, electron/ion transfer, and ion transport is instrumental to address scientific challenges and make breakthroughs in the core technologies such as lithium batteries and production of hydrogen-based carriers and metals. In this lecture, we will address scientific challenges and recent progress in regulating surface oxygen activity and tuning interfacial hydrogen bonds to enhance the functions of lithium batteries, and electrocatalysis of water splitting.
Yang Shao-Horn is JR EAST Professor of Engineering and faculty in the Department of Mechanical Engineering, Department of Materials Science and Engineering and the Research Laboratory of Electronics at MIT. Her research is centered on investigating and tuning the kinetics and dynamics of electrochemical energy storage and making of fuels, chemicals and materials. Prof. Shao-Horn is a member of the National Academy of Engineering. She is a fellow of the American Association for the Advancement of Science, the Electrochemical Society, the National Academy of Inventors and the International Society of Electrochemistry. Her work has been recognized by the Faraday Medal of Royal Society of Chemistry 2018, the Dr. Karl Wamsler Innovation Award from the Technical University of Munich 2020 and Humbolt Prize in Chemistry from the Alexander von Humboldt Foundation 2020. She has have advised 100+ students and postdocs at MIT, who are now pursuing successful careers in industry including Telsa, Amazon and Apple, national research laboratories, and in academia (~35) including faculty positions at MIT and in Europe and Asia.
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