Biblio
Export 38 results:
Author Keyword [ Title] Type Year Filters: First Letter Of Title is E [Clear All Filters]
Effect of direct-current operation on the electrochemical performance and structural evolution of Ni-YSZ electrodes. Journal of Physics: Energy. 2:014006.
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2019. 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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2016. Effect of local coordination of Mn on Mn-L-2,L-3 edge electron energy loss spectrum. JOURNAL OF APPLIED PHYSICS. 114(5):054906.
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0. Effect of Nanoscale Ce0.8Gd0.2O2−δ Infiltrant and Steam Content on Ni–(Y2O3)0.08(ZrO2)0.92 Fuel Electrode Degradation during High-Temperature Electrolysis. Nano Letters. 21:8363-8369.
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2021. The Effect of Uranium Cations on the Redox Properties of CeO2 Within the Context of Hydrogen Production from Water. Topics in Catalysis. 58(2-3):143-148.
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0. The Effects of Morphology on the Oxidation of Ceria by Water and Carbon Dioxide. Journal of Solar Energy Engineering. 134(1):011005.
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2012. Effects of the Incorporation of Sc2O3 into CeO2–ZrO2 Solid Solution: Structural Characterization and in Situ XANES/TPR Study under H2 Atmosphere. The Journal of Physical Chemistry C. 120(42):24165-24175.
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0. Efficiency maximization in solar-thermochemical fuel production: Challenging the concept of isothermal water splitting. Physical Chemistry Chemical Physics. 16(18):8418.
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2014. On the efficiency of solar H2 and CO production via the thermochemical cerium oxide redox cycle: The option of inert-swept reduction. Energy & Fuels. :150206073859007.
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0. Efficiency of two-step solar thermochemical non-stoichiometric redox cycles with heat recovery. Energy. 37(1):591-600.
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0. Efficient generation of H2 by splitting water with an isothermal redox cycle. Science. 341(6145):540-542.
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0. Efficient Solar-Driven Synthesis, Carbon Capture, and Desalinization, STEP: Solar Thermal Electrochemical Production of Fuels, Metals, Bleach. Advanced Materials. 23(47):5592-5612.
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0. Efficient Splitting of CO 2 in an Isothermal Redox Cycle Based on Ceria. Energy & Fuels. :140401120148005.
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0. Electrocatalysis in water electrolysis with solid polymer electrolyte. Electrochimica Acta. 48(25):3945-3952.
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0. Electrochemical behaviour of titanium in H2SO4–MnSO4 electrolytes. Electrochimica Acta. 51(16):3338-3345.
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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. 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. Electrode optimization for efficient hydrogen production using an SO2-depolarized electrolysis cell. International Journal of Hydrogen Energy. 47:14180-14185.
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2022. Electron-energy-loss core-edge structures in manganese oxides. Physical Review B. 48(4):2102-2108.
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0. Electronic properties of crystalline materials observed in X-ray diffraction. Physics Reports. 411(4):233-289.
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0. Elucidating the Role of Hydroxide Electrolyte on Anion-Exchange-Membrane Water Electrolyzer Performance. Journal of The Electrochemical Society. 168:054522.
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2021. Emergent Degradation Phenomena Demonstrated on Resilient, Flexible, and Scalable Integrated Photoelectrochemical Cells. Advanced Energy Materials. 10:2002706.
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2020. Energy and Climate Impacts of Producing Synthetic Hydrocarbon Fuels from CO 2. Environmental Science & Technology. 48(12):7111-7121.
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0. Energy Material Network Data Hubs. International Journal of Advanced Computer Science and Applications. 12
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2021. Enhanced Oxidation Kinetics in Thermochemical Cycling of CeO 2 through Templated Porosity. The Journal of Physical Chemistry C. 117(4):1692-1700.
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