Biblio
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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.
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2020. Understanding of A-site deficiency in layered perovskites: promotion of dual reaction kinetics for water oxidation and oxygen reduction in protonic ceramic electrochemical cells. J. Mater. Chem. A. 8:14600-14608.
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0. Oxidation state and chemical shift investigation in transition metal oxides by EELS. Ultramicroscopy. 116:24-33.
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0. Oxygen nonstoichiometry, defect equilibria, and thermodynamic characterization of LaMnO3 perovskites with Ca/Sr A-site and Al B-site doping. Acta Materialia. 103:700-710.
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2015. Oxygen nonstoichiometry and thermodynamic characterization of Zr doped ceria in the 1573–1773 K temperature range. Phys. Chem. Chem. Phys.. 17(12):7813-7822.
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0. Splitting CO2 with a ceria-based redox cycle in a solar-driven thermogravimetric analyzer. AIChE Journal.
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2016. X-ray absorption study of ceria nanorods promoting the disproportionation of hydrogen peroxide. ChemComm. 52(28):5003-5006.
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0. Investigations on degradation of the long-term proton exchange membrane water electrolysis stack. Journal of Power Sources. 267:515-520.
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0. Electrochemical Hydrogen Compression: Efficient Pressurization Concept Derived from an Energetic Evaluation. Journal of The Electrochemical Society. 164(12):F1187-F1195.
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0. Solid oxide proton conducting steam electrolysers. Solid State Ionics. 179(21):1120-1124.
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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
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0. Solar thermochemical production of hydrogen––a review. Solar Energy. 78(5):603-615.
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2001. Solar thermochemical process technology. Encyclopedia of physical science and technology. 15:237–256.
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2019. Photoelectrochemical water splitting using strain-balanced multiple quantum well photovoltaic cells. Sustainable Energy Fuels. 3:2837-2844.
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0. Development and testing of a PEM SO2-depolarized electrolyzer and an operating method that prevents sulfur accumulation. International Journal of Hydrogen Energy. 40(39):13281-13294.
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0. Oxidation reaction kinetics for the steam-iron process in support of hydrogen production. International Journal of Hydrogen Energy. 36(23):15125-15135.
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0. Re-energizing CO2 to fuels with the sun: Issues of efficiency, scale, and economics. Journal of CO2 Utilization. 1:28-36.
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0. Standardized Benchmarking of Water Splitting Catalysts in a Combined Electrochemical Flow Cell/Inductively Coupled Plasma–Optical Emission Spectrometry (ICP-OES) Setup. ACS Catalysis. 7(6):3768-3778.
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2020. Water-Stable 1D Hybrid Tin(II) Iodide Emits Broad Light with 36% Photoluminescence Quantum Efficiency. Journal of the American Chemical Society. 142:9028-9038.
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0. Electrochemical investigation of electrocatalysts for the oxygen evolution reaction in PEM water electrolyzers. International Journal of Hydrogen Energy. 33(19):4955-4961.
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0. Review: Photochemical and thermochemical production of solar fuels from H2O and CO2 using metal oxide catalysts. Industrial & Engineering Chemistry Research. 51(37):11828-11840.
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0. Sputtered iridium oxide films as electrocatalysts for water splitting via PEM electrolysis. Electrochimica Acta. 52(12):3889-3894.
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2020. High-Throughput Analysis of Materials for Chemical Looping Processes. Advanced Energy Materials. 10(27)
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0. Design of a pilot scale directly irradiated, high temperature, and low pressure moving particle cavity chamber for metal oxide reduction. Solar Energy. 157:365-376.
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2010. Ce0.67Cr0.33O2.11: A New Low-Temperature O2 Evolution Material and H2 Generation Catalyst by Thermochemical Splitting of Water. Chemistry of Materials. 22(3):762-768.