Readily processed protonic ceramic fuel cells with high performance at low temperatures C Duan, J Tong, M Shang, S Nikodemski, M Sanders, S Ricote, ... Science 349 (6254), 1321-1326, 2015 | 1270 | 2015 |
Highly durable, coking and sulfur tolerant, fuel-flexible protonic ceramic fuel cells C Duan, RJ Kee, H Zhu, C Karakaya, Y Chen, S Ricote, A Jarry, ... Nature 557 (7704), 217-222, 2018 | 646 | 2018 |
Water vapour solubility and conductivity study of the proton conductor BaCe (0.9− x) ZrxY0. 1O (3− δ) S Ricote, N Bonanos, G Caboche Solid State Ionics 180 (14-16), 990-997, 2009 | 219 | 2009 |
Low temperature water–gas shift: characterization and testing of binary mixed oxides of ceria and zirconia promoted with Pt S Ricote, G Jacobs, M Milling, Y Ji, PM Patterson, BH Davis Applied Catalysis A: General 303 (1), 35-47, 2006 | 211 | 2006 |
Conductivity study of dense BaCexZr (0.9− x) Y0. 1O (3− δ) prepared by solid state reactive sintering at 1500° C S Ricote, N Bonanos, A Manerbino, WG Coors international journal of hydrogen energy 37 (9), 7954-7961, 2012 | 161 | 2012 |
Thermal and chemical expansion in proton ceramic electrolytes and compatible electrodes A Løken, S Ricote, S Wachowski Crystals 8 (9), 365, 2018 | 145 | 2018 |
Enhanced sintering and conductivity study of cobalt or nickel doped solid solution of barium cerate and zirconate S Ricote, N Bonanos Solid State Ionics 181 (15-16), 694-700, 2010 | 141 | 2010 |
Benchmarking the expected stack manufacturing cost of next generation, intermediate-temperature protonic ceramic fuel cells with solid oxide fuel cell technology A Dubois, S Ricote, RJ Braun Journal of Power Sources 369, 65-77, 2017 | 131 | 2017 |
Advanced materials for thin‐film solid oxide fuel cells: recent progress and challenges in boosting the device performance at low temperatures J Zhang, S Ricote, PV Hendriksen, Y Chen Advanced Functional Materials 32 (22), 2111205, 2022 | 124 | 2022 |
Low temperature water-gas shift: Examining the efficiency of Au as a promoter for ceria-based catalysts prepared by CVD of a Au precursor G Jacobs, S Ricote, PM Patterson, UM Graham, A Dozier, S Khalid, ... Applied Catalysis A: General 292, 229-243, 2005 | 117 | 2005 |
Structural and conductivity study of the proton conductor BaCe (0.9− x) ZrxY0. 1O (3− δ) at intermediate temperatures S Ricote, N Bonanos, MCM De Lucas, G Caboche Journal of Power Sources 193 (1), 189-193, 2009 | 115 | 2009 |
Defect chemistry and transport within dense BaCe0. 7Zr0. 1Y0. 1Yb0. 1O3− δ (BCZYYb) proton-conducting membranes H Zhu, S Ricote, C Duan, RP O’Hayre, RJ Kee Journal of The Electrochemical Society 165 (10), F845, 2018 | 103 | 2018 |
Effects of the fabrication process on the grain-boundary resistance in BaZr 0.9 Y 0.1 O 3− δ S Ricote, N Bonanos, A Manerbino, NP Sullivan, WG Coors Journal of Materials Chemistry A 2 (38), 16107-16115, 2014 | 100 | 2014 |
Defect incorporation and transport within dense BaZr0. 8Y0. 2O3− δ (BZY20) proton-conducting membranes H Zhu, S Ricote, C Duan, RP O’Hayre, DS Tsvetkov, RJ Kee Journal of The Electrochemical Society 165 (9), F581, 2018 | 99 | 2018 |
LaCoO3: Promising cathode material for protonic ceramic fuel cells based on a BaCe0. 2Zr0. 7Y0. 1O3− δ electrolyte S Ricote, N Bonanos, F Lenrick, R Wallenberg Journal of Power Sources 218, 313-319, 2012 | 75 | 2012 |
Low temperature water gas shift: Type and loading of metal impacts forward decomposition of pseudo-stabilized formate over metal/ceria catalysts G Jacobs, S Ricote, UM Graham, PM Patterson, BH Davis Catalysis today 106 (1-4), 259-264, 2005 | 75 | 2005 |
Low temperature water-gas shift: Type and loading of metal impacts decomposition and hydrogen exchange rates of pseudo-stabilized formate over metal/ceria catalysts G Jacobs, S Ricote, BH Davis Applied Catalysis A: General 302 (1), 14-21, 2006 | 73 | 2006 |
Interpreting equilibrium-conductivity and conductivity-relaxation measurements to establish thermodynamic and transport properties for multiple charged defect conducting ceramics H Zhu, S Ricote, WG Coors, RJ Kee Faraday discussions 182, 49-74, 2015 | 70 | 2015 |
Hydrogen permeation through dense BaCe0. 8Y0. 2O3− δ–Ce0. 8Y0. 2O2− δ composite-ceramic hydrogen separation membranes WA Rosensteel, S Ricote, NP Sullivan International Journal of Hydrogen Energy 41 (4), 2598-2606, 2016 | 69 | 2016 |
Conductivity, transport number measurements and hydration thermodynamics of BaCe0. 2Zr0. 7Y (0.1− ξ) NiξO (3− δ) S Ricote, N Bonanos, HJ Wang, R Haugsrud Solid State Ionics 185 (1), 11-17, 2011 | 68 | 2011 |