Research Bio
Dr. Wilson Smith's research is focused on materials and systems forÌýelectrochemical conversion technologies including water splitting, CO2 reduction, and N2 reduction to ammonia. Particularly, his research is centered aroundÌýin-situ/operando characterization techniques (spectro-electrochemistry and atomic force microscopy),Ìýreactor engineering, process intensification, and process/system integration.
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Education
- PhD inÌýPhysics, University of Georgia, 2010
- B.S. in Physics, American University, 2005
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Awards
- ERC Starting Grant (2017)
- VIDI (2016)
- VENI (2013)
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Selected Publications
- W.A. Smith*, T. Burdyny, D.A. Vermaas, J.C.C. Geerlings,Ìý, Joule, 3, 1822~1834 (2019). DOI:Ìý
- T. Burdyny andÌýW.A. Smith*,Ìý, Energy and Environmental Science, 12, 1442~1453 (2019). DOI:Ìý
- D. Bohra, I. Ledezma-Yanez, G. Li, W. de Jong, E.A. Pidko,ÌýW.A. Smith*,Ìý, Angewandte Chemie International Edition, 58, 1345~1349 (2019)Ìý[]
- M. Ma, K. Djanashvili,ÌýW.A. Smith*,Ìý, Angewandte Chemie Int. Ed.,Ìý55, 6680~6684 (2016). DOI:Ìý
- B.J. Trzesniewski, O. Diaz-Morales, D.A. Vermaas, A. Longo, W. Bras, M.T.M. Koper,ÌýW.A. Smith*,Ìý, Journal of the American Chemical Society, 137, 15112~15121 (2015). DOI:Ìý