Biblio
Export 96 results:
Author Keyword Title Type [ Year] Filters: First Letter Of Last Name is K [Clear All Filters]
Analytical Model of CeO 2 Oxidation and Reduction. The Journal of Physical Chemistry C. 117(46):24129-24137.
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2013. A Model of Transient Heat and Mass Transfer in a Heterogeneous Medium of Ceria Undergoing Nonstoichiometric Reduction. Journal of Heat Transfer. 135(5):052701.
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2013. Best Practices in Perovskite Solar Cell Efficiency Measurements. Avoiding the Error of Making Bad Cells Look Good. Journal of Physical Chemistry Letters. 6:852-857.
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2015. Design of a Solar Reactor to Split CO2 Via Isothermal Redox Cycling of Ceria. Journal of Solar Energy Engineering. 137(3):031007.
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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. A new solar fuels reactor concept based on a liquid metal heat transfer fluid: Reactor design and efficiency estimation. Solar Energy. 122:547-561.
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2015. Perovskite La0.6Sr0.4Cr1−xCoxO3−δ solid solutions for solar-thermochemical fuel production: strategies to lower the operation temperature. J. Mater. Chem. A. 3(30):15546-15557.
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2015. Surface controlled reduction kinetics of nominally undoped polycrystalline CeO 2. Phys. Chem. Chem. Phys.. 17(8):5849-5860.
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Critical limitations on the efficiency of two-step thermochemical cycles. Solar Energy. 123:57-73.
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2016. Reduction enthalpy and charge distribution of substituted ferrites and doped ceria for thermochemical water and carbon dioxide splitting with DFT+U. Phys. Chem. Chem. Phys.. 18(34):23587-23595.
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2016. Anodic Behavior of the Aluminum Current Collector in Imide-Based Electrolytes: Influence of Solvent, Operating Temperature, and Native Oxide-Layer Thickness. ChemSusChem. 10(4):804-814.
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2017. Anodic Behavior of the Aluminum Current Collector in Imide-Based Electrolytes: Influence of Solvent, Operating Temperature, and Native Oxide-Layer Thickness. ChemSusChem. 10(4):804-814.
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2017. Perovskite oxides – a review on a versatile material class for solar-to-fuel conversion processes. Journal of Materials Chemistry A. 5(24):11983-12000.
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2017. Self-optimizing, highly surface-active layered metal dichalcogenide catalysts for hydrogen evolution. Nature Energy. 6:17127.
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2017. Solar photochemical–thermal water splitting at 140 °C with Cu-loaded TiO 2. Energy & Environmental Science. 10(2):628-640.
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2017. Solar photochemical–thermal water splitting at 140 °C with Cu-loaded TiO 2. Energy & Environmental Science. 10(2):628-640.
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2017. Cosputtered Calcium Manganese Oxide Electrodes for Water Oxidation. Inorganic Chemistry. 57(2):785-792.
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2018. Gallium nitride nanowire as a linker of molybdenum sulfides and silicon for photoelectrocatalytic water splitting. Nature Communications. 9(1):3856.
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2018. Hydrogen Production: 3D Self-Architectured Steam Electrode Enabled Efficient and Durable Hydrogen Production in a Proton-Conducting Solid Oxide Electrolysis Cell at Temperatures Lower Than 600 °C (Adv. Sci. 11/2018). Advanced Science. 5(11):1870070.
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2018. Low-Cost, Efficient, and Durable H2 Production by Photoelectrochemical Water Splitting with CuGa3Se5 Photocathodes. ACS Applied Materials & Interfaces. 10(23):19573-19579.
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2018. Integrated Membrane-Electrode-Assembly Photoelectrochemical Cell under Various Feed Conditions for Solar Water Splitting. Journal of The Electrochemical Society. 166(5):H3020-H3028.
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