Biblio

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2020
Singstock N.R, Bartel C.J, Holder A.M, Musgrave C.B.  2020.  High-Throughput Analysis of Materials for Chemical Looping Processes. Advanced Energy Materials. 10(27)
Millican S.L, Androshchuk I., Tran J.T, Trottier R.M, Bayon A., Y. Salik A, Idriss H., Musgrave C.B, Weimer A.W.  2020.  Oxidation Kinetics of Hercynite Spinels for Solar Thermochemical Fuel Production. Chemical Engineering Journal. 401
Trottier R.M, Bare Z.JL, Millican S.L, Musgrave C.B.  2020.  Predicting Spinel Disorder and Its Effect on Oxygen Transport Kinetics in Hercynite. ACS Applied Materials & Interfaces. 12(21):23831-23843.
Ding H, Wu W, Jiang C, Ding Y, Bian W, Hu B, Singh P, Orme CJ, Wang L, Zhang Y et al..  2020.  Self-sustainable protonic ceramic electrochemical cells using a triple conducting electrode for hydrogen and power production. Nature Communications. 11
2019
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.
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.
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.
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.
Dogdibegovic E, Shen F, Wang R, Robinson I, Lau GY, Tucker MC.  2019.  Progress in Metal-Supported Solid Oxide Fuel Cells and Electrolyzers with Symmetric Metal Supports and Infiltrated Electrodes. ECS Transactions. 91:877–885.
Li W, Guan B, Ma L, Tian H, Liu X.  2019.  Synergistic Coupling of Proton Conductors BaZr0.1Ce0.7Y0.1Yb0.1O3−δ and La2Ce2O7 to Create Chemical Stable, Interface Active Electrolyte for Steam Electrolysis Cells. ACS Applied Materials & Interfaces. 11:18323-18330.
Gauthier JA, King LA, Stults FTucker, Flores RA, Kibsgaard J, Regmi YN, Chan K, Jaramillo TF.  2019.  Transition Metal Arsenide Catalysts for the Hydrogen Evolution Reaction. The Journal of Physical Chemistry C. 123:24007-24012.
2018
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.