Biblio
] .
0. Understanding Chemical Expansion in Non-Stoichiometric Oxides: Ceria and Zirconia Case Studies. Advanced Functional Materials. 22(9):1958-1965.
.
0. Structure and magnetic properties of Ba5Ce1.25Mn3.75O15, a new 10H-polytype in the Ba–Ce–Mn–O system. Journal of Solid State Chemistry. 198:186-191.
.
2015. Influence of the synthesis route on the formation of 12R/10H-polytypes and their magnetic properties within the Ba(Ce,Mn)O 3 family. New Journal of Chemistry. 39(2):829-835.
.
2022. System and technoeconomic analysis of solar thermochemical hydrogen production. Renewable Energy. 190:294-308.
.
2021. A comprehensive modeling method for proton exchange membrane electrolyzer development. International Journal of Hydrogen Energy. 46:17627-17643.
.
0. Materials for Proton Exchange Membrane water electrolyzer bipolar plates. International Journal of Hydrogen Energy. 42(5):2713-2723.
.
0. Surface Defect Chemistry and Electronic Structure of Pr 0.1 Ce 0.9 O 2−δ Revealed in Operando. Chemistry of Materials. 30(8):2600-2606.
.
0. Resonant 1 s → 3 d x-ray Bragg diffraction and structure factors for transition-metal compounds. Physical Review B. 64(5)
.
0. Electronic properties of crystalline materials observed in X-ray diffraction. Physics Reports. 411(4):233-289.
.
2018. Performance enhancement of PEM electrolyzers through iridium-coated titanium porous transport layers. Electrochemistry Communications. 97:96-99.
.
2019. Effect of direct-current operation on the electrochemical performance and structural evolution of Ni-YSZ electrodes. Journal of Physics: Energy. 2:014006.
.
2019. Unifying the Hydrogen Evolution and Oxidation Reactions Kinetics in Base by Identifying the Catalytic Roles of Hydroxyl-Water-Cation Adducts. Journal of the American Chemical Society. 141(7):3232-3239.
.
2017. Self-optimizing, highly surface-active layered metal dichalcogenide catalysts for hydrogen evolution. Nature Energy. 6:17127.
.
2021. Elucidating the Role of Hydroxide Electrolyte on Anion-Exchange-Membrane Water Electrolyzer Performance. Journal of The Electrochemical Society. 168:054522.
.
0. Solar fuel processing efficiency for ceria redox cycling using alternative oxygen partial pressure reduction methods. Energy. 88:667-679.
.
2019. High performance III-V photoelectrodes for solar water splitting via synergistically tailored structure and stoichiometry. Nature Communications. 10:3388.
.
2012. Atomic layer deposited thin film metal oxides for fuel production in a solar cavity reactor. International Journal of Hydrogen Energy. 37(22):16888-16894.
.
0. Efficient Solar-Driven Synthesis, Carbon Capture, and Desalinization, STEP: Solar Thermal Electrochemical Production of Fuels, Metals, Bleach. Advanced Materials. 23(47):5592-5612.
.
0. Structural Change of the Mn Cluster during the S2→S3 State Transition of the Oxygen-Evolving Complex of Photosystem II. Does It Reflect the Onset of Water/Substrate Oxidation? Determination by Mn X-ray Absorption Spectroscopy Journal of the American Chemical Society. 122(14):3399-3412.
.
2019. Phenyl Oxidation Impacts the Durability of Alkaline Membrane Water Electrolyzer. ACS Applied Materials & Interfaces. 11(10):9696-9701.
.
2018. Active Site Revealed for Water Oxidation on Electrochemically Induced δ - MnO 2 : Role of Spinel-to-Layer Phase Transition. Journal of the American Chemical Society. 140(5):1783-1792.
.
0. Modification of CeO2 on the redox property of Fe2O3. Materials Letters. 93:129-132.
.
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.
.
2021. Layer-structured triple-conducting electrocatalyst for water-splitting in protonic ceramic electrolysis cells: Conductivities vs. activity. Journal of Power Sources. 495:229764.
.
2018. High performing triple-conductive Pr2NiO4+δ anode for proton-conducting steam solid oxide electrolysis cell . Journal of Materials Chemistry A. 6:18057-18066.