1550
(Invited) Advanced Materials for Electrochemical Systems

Tuesday, 26 May 2015: 14:00
Boulevard Room A (Hilton Chicago)
D. Li, Y. Kang, D. Strmcnik, N. M. Markovic, and V. Stamenkovic (Argonne National Laboratory)
Fundamental understanding of processes that are relevant for energy conversion and storage have been in the research focus that will be presented.  Atomic scale insight at the electrified solid-liquid interfaces is considered critical in further advancement of materials that could be implemented in electrochemical systems such as electrolyzers, batteries and fuel cells. 

It has been demonstrated that fine tuning of the surface properties can lead towards unprecedented improvements in their functional properties that are relevant for electrochemical technologies.  This presentation will address unique research approach that is capable of revealing structure-function relationships in the design of tailored materials for electrochemical systems.  The following topics will be discussed:  well-defined materials obtained by varying their surface structure, composition profile and electronic properties; atomic/molecular insight into electrified solid-liquid interfaces; modeling of electrochemical systems; identification of the active and the most vulnerable surface sites under reaction conditions; insight into chemical nature between the surface atoms, reactants, and molecular species in the electrolyte; engineering of advanced nanomaterials with desired size, shape and composition profile; ex-situ and in-situ characterization of tailored nanostructured electrochemical interfaces.

This synergistic approach encompasses highly diverse experimental and theoretical methods and has been proven to serve as a foundation in the development of novel materials with advanced properties.