Biblio

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Journal Article
Ding H, Wu W, Ding D.  2019.  Advancement of Proton-Conducting Solid Oxide Fuel Cells and Solid Oxide Electrolysis Cells at Idaho National Laboratory (INL). ECS Transactions. 91:1029–1034.
Arges CG, Ramani V, Wang Z, Ouimet RJ.  0.  Assessing the Oxidative Stability of Anion Exchange Membranes in Oxygen Saturated Aqueous Alkaline Solutions. Frontiers in Energy Research. 10
Naghavi S.S, He J., Wolverton C..  2020.  CeTi2O6—A Promising Oxide for Solar Thermochemical Hydrogen Production. ACS Applied Materials & Interfaces. 12(19):21521-21527.
Shen X, Yanagi R, Solanki D, Su H, Li Z, Xiang C-X, Hu S.  2022.  Comprehensive Evaluation for Protective Coatings: Optical, Electrical, Photoelectrochemical, and Spectroscopic Characterizations. Frontiers in Energy Research. 9
Park B-K, Zhang Q, Voorhees PW, Barnett SA.  2019.  Conditions for stable operation of solid oxide electrolysis cells: oxygen electrode effects. Energy Environ. Sci.. 12:3053-3062.
Tian H, Li W, Ma L, Yang T, Guan B, Shi W, Kalapos TL, Liu X.  2020.  Deconvolution of Water-Splitting on the Triple-Conducting Ruddlesden–Popper-Phase Anode for Protonic Ceramic Electrolysis Cells. ACS Applied Materials & Interfaces. 12:49574-49585.
Wang Y, Li W, Ma L, Li W, Liu X.  2020.  Degradation of solid oxide electrolysis cells: Phenomena, mechanisms, and emerging mitigation strategies—A review. Journal of Materials Science & Technology. 55:35-55.
Wang Y, Li W, Ma L, Li W, Liu X.  2020.  Degradation of solid oxide electrolysis cells: Phenomena, mechanisms, and emerging mitigation strategies—A review. Journal of Materials Science & Technology. 55:35-55.
Liu Q, Zhang Q, Voorhees PW, Barnett SA.  2019.  Effect of direct-current operation on the electrochemical performance and structural evolution of Ni-YSZ electrodes. Journal of Physics: Energy. 2:014006.
Park B-K, Cox D, Barnett SA.  2021.  Effect of Nanoscale Ce0.8Gd0.2O2−δ Infiltrant and Steam Content on Ni–(Y2O3)0.08(ZrO2)0.92 Fuel Electrode Degradation during High-Temperature Electrolysis. Nano Letters. 21:8363-8369.
Colón-Mercado HR, Mauger SA, Gorensek MB, Fujimoto CH, Lando AA, Ganesan P, Meekins BH, Meeks ND.  2022.  Electrode optimization for efficient hydrogen production using an SO2-depolarized electrolysis cell. International Journal of Hydrogen Energy. 47:14180-14185.
Liu J, Kang Z, Li D, Pak M, Alia SM, Fujimoto C, Bender G, Kim YSeung, Weber AZ.  2021.  Elucidating the Role of Hydroxide Electrolyte on Anion-Exchange-Membrane Water Electrolyzer Performance. Journal of The Electrochemical Society. 168:054522.
Qian X., He J., Mastronardo E., Baldassarri B., Wolverton C., Haile S.M.  2020.  Favorable Redox Thermodynamics of SrTi0.5Mn0.5O3−δ in Solar Thermochemical Water Splitting. Chemistry of Materials. 32(21):9335-9346.
G. Gautam S, Stechel E.B, Carter E.A.  2020.  A First-Principles-Based Sub-Lattice Formalism for Predicting Off-Stoichiometry in Materials for Solar Thermochemical Applications: The Example of Ceria. Advanced Theory and Simulations. 3(9)
Strange NA, Park JEujin, Goyal A, Bell RT, Trindell JA, Sugar JD, Stone KH, Coker EN, Lany S, Shulda S et al..  2022.  Formation of 6H-Ba3Ce0.75Mn2.25O9 During Thermochemical Reduction of 12R-Ba4CeMn3O12: Identification of a Polytype in the Ba(Ce,Mn)O3 Family. Inorganic Chemistry. 61
Li W, Guan B, Ma L, Hu S, Zhang N, Liu X.  2018.  High performing triple-conductive Pr2NiO4+δ anode for proton-conducting steam solid oxide electrolysis cell . Journal of Materials Chemistry A. 6:18057-18066.
Colón-Mercado HR, Gorensek MB, Fujimoto CH, Lando AA, Meekins BH.  2022.  High-performance SO2-depolarized electrolysis cell using advanced polymer electrolyte membranes. International Journal of Hydrogen Energy. 47:57-68.
Colón-Mercado HR, Gorensek MB, Fujimoto CH, Lando AA, Meekins BH.  2022.  High-performance SO2-depolarized electrolysis cell using advanced polymer electrolyte membranes. International Journal of Hydrogen Energy. 47:57-68.
Colón-Mercado HR, Gorensek MB, Fujimoto CH, Lando AA, Meekins BH.  2022.  High-performance SO2-depolarized electrolysis cell using advanced polymer electrolyte membranes. International Journal of Hydrogen Energy. 47:57-68.
Kiessling A, Fornaciari JC, Anderson G, Peng X, Gerstmayr A, Gerhardt MR, McKinney S, Serov A, Kim YSeung, Zulevi B et al..  2021.  Influence of Supporting Electrolyte on Hydroxide Exchange Membrane Water Electrolysis Performance: Anolyte. Journal of The Electrochemical Society. 168:084512.
Vanka S, Sun K, Zeng G, Pham TAnh, Toma FMaria, Ogitsu T, Mi Z.  2019.  Long-term stability studies of a semiconductor photoelectrode in three-electrode configuration. Journal of Materials Chemistry A. 7:27612-27619.
Wang R, Dogdibegovic E, Lau GY, Tucker MC.  2019.  Metal-Supported Solid Oxide Electrolysis Cell with Significantly Enhanced Catalysis. Energy Technology. 7:1801154.
Wang R, Dogdibegovic E, Lau GY, Tucker MC.  2019.  Metal-Supported Solid Oxide Electrolysis Cell with Significantly Enhanced Catalysis. Energy Technology. 7:1801154.
Cook K, Wrubel J, Ma Z, Huang K, Jin X.  2021.  Modeling Electrokinetics of Oxygen Electrodes in Solid Oxide Electrolyzer Cells. Journal of The Electrochemical Society. 168:114510.
Bayon A, de la Calle A, Stechel EB, Muhich C.  2022.  Operational Limits of Redox Metal Oxides Performing Thermochemical Water Splitting. Energy Technology. 10:2100222.