HAILE, SOSSINA - Northwestern University - Department of Materials Science and Engineering

个人简介

Ph.D. Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA M.S. Materials Science and Engineering, University of California - Berkeley, Berkeley, CA B.S. Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA

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R. E. Usiskin, S. Maruyama, C. J. Kucharczyk, I. Takeuchi, S. M. Haile “Probing the Reaction Pathway in (La0.8Sr0.2)0.95MnO3+δ Using Libraries of Thin Film Microelectrodes,” J. Mater. Chem. A 3 19330-19345 (2015). W Jung, K. L. Gu, Y. Choi and S. M. Haile, “Robust nanostructures with exceptionally high electrochemical reaction activity for high temperature fuel cell electrodes.” Energy Env. Sci. 7, 1685-1692 (2014). Y. Yamazaki, F. Blanc, Y. Okuyama, L. Buannic, J. C. Lucio-Vega, C. P. Grey, and S. M. Haile, “Evidence of proton trapping and its implications in yttrium-doped barium zirconate,” Nature Materials 12, 647-651 (2013). W. C. Chueh and S. M. Haile, “Electrochemistry of Mixed Oxygen Ion and Electron Conducting Electrodes in Solid Oxide Fuel Cells and Electrolyzers,” Annu. Rev. Chem. Biomol. Eng. 3, 313-41 (2012). W. C. Chueh, Y. Hao, W. Jung and S. M. Haile, “High Electrochemical Activity of the Oxide Phase in Model Ceria-Pt and Ceria-Ni Composite Anodes,” Nature Materials 11, 155-161 (2012). W.C. Chueh, C. Falter, M. Abbott, D. Scipio, P. Furler, S. M. Haile and A. Steinfeld,“High-Flux Solar-Driven Thermochemical Dissociation of H2O and CO2 Using Nonstoichiometric Ceria,” Science 330, 1797-1801 (2010). M. W. Louie, A. Hightower and S. M. Haile, “Nanoscale electrodes by conducting atomic force microscopy: Oxygen reduction kinetics at the Pt | CsHSO4 interface,” ACS Nano 4, 2811-2821 (2010). á. Varga, N. A. Brunelli, M. W. Louie, K. P. Giapis and S. M. Haile, “Composite Nanostructured Solid-Acid Fuel-Cell Electrodes via Electrospray Deposition,” J. Mat. Chem. 20, 2190-2196 (2010). Y. Yamazaki, R. Hernandez-Sanchez and S. M. Haile, “High total proton conductivity in Y-doped BaZrO3,” Chem. Mater. 21, 2755-2762 (2009). S. M. Haile, C. R.I. Chisholm, K. Sasaki, D. A. Boysen and T. Uda, “Solid acid proton conductors: From laboratory curiosities to fuel cell electrolytes,” Faraday Discussions 134, 17-39 (2007). W. Lai and S. M. Haile, “Impedance Spectroscopy as a Tool for Chemical and Electrochemical Analysis of Mixed Conductors: A Case Study of Ceria,” J. Amer. Cer. Soc. (Feature Article) 88, 2979–2997 (2005). P. Babilo and S. M. Haile, “Enhanced Sintering of Yttrium doped Barium Zirconate by Addition of ZnO,” J. Amer. Cer. Soc. 88, 2362-2368 (2005). Z. P. Shao, S. M. Haile, J. M. Ahn, P.D. Ronney, Z. L. Zhan and S. A. Barnett, “A thermally self-sustained micro Solid-Oxide Fuel Cell stack with high power density,” Nature 435, 795-798 (2005). T. Uda and S. M. Haile, “Thin-Membrane Solid-Acid Fuel Cell,” Electrochem. Solid State Lett. 8, A245-A246 (2005). Z. Shao and S. M. Haile, “A High Performance Cathode for the Next Generation Solid-Oxide Fuel Cells,” Nature 431, 170-173 (2004). D. A. Boysen, T. Uda, C. R.I. Chisholm and S. M. Haile, “High performance Solid Acid Fuel Cells through humidity stabilization,” Science 303, 68-70 (2004). S. M. Haile, D. A. Boysen, C. R. I. Chisholm and R. B. Merle, “Solid Acids as Fuel Cell Electrolytes,” Nature 410, 910-913 (2001)