Biblio
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2021. Multiple Reaction Pathways for the Oxygen Evolution Reaction May Contribute to IrO2 (110)'s High Activity. Journal of The Electrochemical Society. 168:024506.
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2019. Direct Deposition of Crystalline Ta3N5 Thin Films on FTO for PEC Water Splitting. ACS Applied Materials & Interfaces. 11:15457-15466.
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0. Kinetics and thermodynamics of H2O dissociation on reduced CeO2(111). The Journal of Physical Chemistry C. 118(47):27402-27414.
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2014. Ceria–zirconia solid solutions (Ce1–xZrxO2−δ, x≤0.2) for solar thermochemical water splitting: A thermodynamic study. Chemistry of Materials. 26(20):6073-6082.
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2013. High-temperature isothermal chemical cycling for solar-driven fuel production. Physical Chemistry Chemical Physics. 15(40):17084.
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0. Demonstration of a solar reactor for carbon dioxide splitting via the isothermal ceria redox cycle and practical implications. Energy & Fuels. 30(8):6654-6661.
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2016. Effect of Flow Rates on Operation of a Solar Thermochemical Reactor for Splitting CO2 Via the Isothermal Ceria Redox Cycle. Journal of Solar Energy Engineering. 138(1):011007.
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2017. A Decade of Solid Oxide Electrolysis Improvements at DTU Energy. ECS Transactions. 75(42):3-14.
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0. The reduction and oxidation of ceria: A natural abundance triple oxygen isotope perspective. Geochimica et Cosmochimica Acta. 159:220-230.
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2015. Perovskite promoted iron oxide for hybrid water-splitting and syngas generation with exceptional conversion. Energy Environ. Sci.. 8(2):535-539.
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2019. Dependence of interface energetics and kinetics on catalyst loading in a photoelectrochemical system. Nano Research.
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2019. Thin film photoelectrodes for solar water splitting. Chemical Society Reviews. 48(7):2182-2215.
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2018. Toward Practical Solar Hydrogen Production. Chem. 4(3):405-408.
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0. Solar energy combined with chemical reactive systems for the production and storage of sustainable energy. A review of thermodynamic principles. The Journal of Chemical Thermodynamics. 46:99-108.
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2019. Molybdenum Disulfide Catalytic Coatings via Atomic Layer Deposition for Solar Hydrogen Production from Copper Gallium Diselenide Photocathodes. ACS Applied Energy Materials. 2(2):1060-1066.
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2021. Double-Site Substitution of Ce Into (Ba, Sr)MnO3 Perovskites for Solar Thermochemical Hydrogen Production. ACS Energy Letters. 6(9):3037-3043.
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2015. A general framework for the assessment of solar fuel technologies. Energy Environ. Sci.. 8(1):126-157.
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2015. Diverse structures of mixed-metal oxides containing rare earths and their magnetic properties. Journal of the Ceramic Society of Japan. 123(1441):845-852.
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2017. Thermodynamics of paired charge-compensating doped ceria with superior redox performance for solar thermochemical splitting of H 2 O and CO 2. Journal of Materials Chemistry A. 5(36):19476-19484.
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2019. Continuous on-sun solar thermochemical hydrogen production via an isothermal redox cycle. Applied Energy. 249:368-376.
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2013. Analysis and improvement of a high-efficiency solar cavity reactor design for a two-step thermochemical cycle for solar hydrogen production from water. Solar Energy. 97:26-38.
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2019. Creating stable interfaces between reactive materials: titanium nitride protects photoabsorber–catalyst interface in water-splitting photocathodes. Journal of Materials Chemistry A. 7(5):2400-2411.
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2020. Highly efficient and durable III–V semiconductor-catalyst photocathodes via a transparent protection layer. Sustainable Energy Fuels. 4(3):1437-1442.