Methanol Oxidation

  1. Bifunctional Anode Catalysts for Direct Methanol Fuel Cells”, J. Rossmeisl, P. Ferrin, G. A. Tritsaris, A. U. Nilekar, S. Koh, S. E. Bae, S. R. Brankovic, P. Strasser, M. Mavrikakis, Energy & Environmental Science 5, 8335 (2012). [DOI]
  2. Structure Sensitivity of Methanol Electrooxidation on Transition Metals”, P. Ferrin, M. Mavrikakis, Journal of the American Chemical Society 131, 14381 (2009). [DOI]
  3. Reactivity Descriptors for Direct Methanol Fuel Cell Anode Catalysts”, P. Ferrin, A. U. Nilekar, J. Greeley, M. Mavrikakis, J. Rossmeisl, Surface Science 602, 3424 (2008). [DOI]
  4. Platinum Monolayer Fuel Cell Electrocatalysts”, R. R. Adzic, J. Zhang, K. Sasaki, M. B. Vukmirovic, M. Shao, J. X. Wang, A. U. Nilekar, M. Mavrikakis, J. A. Valerio, F. Uribe, Topics in Catalysis 46, 249 (2007). [DOI]
  5. Prediction of Experimental Methanol Decomposition Rates on Platinum from First Principles”, S. Kandoi, J. Greeley, M. A. Sanchez-Castillo, S. T. Evans, A. A. Gokhale, J. A. Dumesic, M. Mavrikakis, Topics in Catalysis 37, 17 (2006). [DOI]
  6. Competitive Paths for Methanol Decomposition on Pt(111)”, J. Greeley, M. Mavrikakis, Journal of the American Chemical Society 126, 3910 (2004). [DOI]
  7. A First-Principles Study of Methanol Decomposition on Pt(111)”, J. Greeley, M. Mavrikakis, Journal of the American Chemical Society 124, 7193 (2002). [DOI]