High-performance solid acid fuel cells through humidity stabilization DA Boysen, T Uda, CRI Chisholm, SM Haile Science 303 (5654), 68-70, 2004 | 575 | 2004 |
Processing of yttrium-doped barium zirconate for high proton conductivity P Babilo, T Uda, SM Haile Journal of materials research 22 (5), 1322-1330, 2007 | 488 | 2007 |
Solid acid proton conductors: from laboratory curiosities to fuel cell electrolytes SM Haile, CRI Chisholm, K Sasaki, DA Boysen, T Uda Faraday discussions 134, 17-39, 2007 | 385 | 2007 |
Thin-membrane solid-acid fuel cell T Uda, SM Haile Electrochemical and Solid-State Letters 8 (5), A245, 2005 | 229 | 2005 |
Technique for enhanced rare earth separation T Uda, KT Jacob, M Hirasawa Science 289 (5488), 2326-2329, 2000 | 163 | 2000 |
Recovery of rare earths from magnet sludge by FeCl2 T Uda Materials Transactions 43 (1), 55-62, 2002 | 139 | 2002 |
Chemical expansion of yttrium‐doped barium zirconate and correlation with proton concentration and conductivity D Han, N Hatada, T Uda Journal of the American Ceramic Society 99 (11), 3745-3753, 2016 | 128 | 2016 |
Pyrolysis study of poly (vinyl chloride)–metal oxide mixtures: quantitative product analysis and the chlorine fixing ability of metal oxides Y Masuda, T Uda, O Terakado, M Hirasawa Journal of Analytical and Applied Pyrolysis 77 (2), 159-168, 2006 | 116 | 2006 |
Correlation between electroconductive and structural properties of proton conductive acceptor-doped barium zirconate D Han, K Shinoda, S Sato, M Majima, T Uda Journal of Materials Chemistry A 3 (3), 1243-1250, 2015 | 114 | 2015 |
The best composition of an Y-doped BaZrO 3 electrolyte: selection criteria from transport properties, microstructure, and phase behavior D Han, T Uda Journal of Materials Chemistry A 6 (38), 18571-18582, 2018 | 112 | 2018 |
Dehydration behavior of the superprotonic conductor CsH 2 PO 4 at moderate temperatures: 230 to 260 C Y Taninouchi, T Uda, Y Awakura, A Ikeda, SM Haile Journal of Materials Chemistry 17 (30), 3182-3189, 2007 | 109 | 2007 |
Detrimental effect of sintering additives on conducting ceramics: yttrium‐doped barium zirconate D Han, S Uemura, C Hiraiwa, M Majima, T Uda ChemSusChem 11 (23), 4102-4113, 2018 | 96 | 2018 |
Yttrium‐doped barium zirconate‐cerate solid solution as proton conducting electrolyte: why higher cerium concentration leads to better performance for fuel cells and … D Han, X Liu, TS Bjørheim, T Uda Advanced Energy Materials 11 (8), 2003149, 2021 | 94 | 2021 |
Transport properties of acceptor-doped barium zirconate by electromotive force measurements D Han, Y Noda, T Onishi, N Hatada, M Majima, T Uda International Journal of Hydrogen Energy 41 (33), 14897-14908, 2016 | 94 | 2016 |
Synthesis of La1− xSrxSc1− yFeyO3− δ (LSSF) and measurement of water content in LSSF, LSCF and LSC hydrated in wet artificial air at 300° C D Han, Y Okumura, Y Nose, T Uda Solid State Ionics 181 (35-36), 1601-1606, 2010 | 88 | 2010 |
Dependence of dopant cations on microstructure and proton conductivity of barium zirconate S Imashuku, T Uda, Y Nose, G Taniguchi, Y Ito, Y Awakura Journal of the Electrochemical Society 156 (1), B1, 2008 | 88 | 2008 |
Alcohol fuel cells at optimal temperatures T Uda, DA Boysen, CRI Chisholm, SM Haile Electrochemical and solid-state letters 9 (6), A261, 2006 | 88 | 2006 |
Chemical Expansion and Change in Lattice Constant of Y‐Doped BaZrO3 by Hydration/Dehydration Reaction and Final Heat‐Treating Temperature C Hiraiwa, D Han, A Kuramitsu, A Kuwabara, H Takeuchi, M Majima, ... Journal of the American Ceramic Society 96 (3), 879-884, 2013 | 85 | 2013 |
Site selectivity of dopants in BaZr1-yMyO3-δ (M= Sc, Y, Sm, Eu, Dy) and measurement of their water contents and conductivities D Han, Y Nose, K Shinoda, T Uda Solid State Ionics 213, 2-7, 2012 | 84 | 2012 |
Effects of volume strain due to Li–Sn compound formation on electrode potential in lithium-ion batteries K Hirai, T Ichitsubo, T Uda, A Miyazaki, S Yagi, E Matsubara Acta Materialia 56 (7), 1539-1545, 2008 | 79 | 2008 |