Biblio
Surface controlled reduction kinetics of nominally undoped polycrystalline CeO 2. Phys. Chem. Chem. Phys.. 17(8):5849-5860.
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2015. Advancing Oxide Materials for Thermochemical Production of Solar Fuels. Energy Procedia. 49:2019-2026.
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2014. Annual Average Efficiency of a Solar-thermochemical Reactor. Energy Procedia. 49:1932-1939.
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2014. Cascading pressure thermal reduction for efficient solar fuel production. International Journal of Hydrogen Energy. 39(25):13114-13117.
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2014. CeO2 modified Fe2O3 for the chemical hydrogen storage and production via cyclic water splitting. International Journal of Hydrogen Energy. 39(25):13381-13388.
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2014. Ceria-based electrospun fibers for renewable fuel production via two-step thermal redox cycles for carbon dioxide splitting. Physical Chemistry Chemical Physics. 16(27):14271.
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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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2014. Characterization of Two-Step Tin-Based Redox System for Thermochemical Fuel Production from Solar-Driven CO 2 and H 2 O Splitting Cycle. Industrial & Engineering Chemistry Research. 53(14):5668-5677.
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2014. Considerations in the design of materials for solar-driven fuel production using metal-oxide thermochemical cycles. Advanced Energy Materials. 4(2):1300469.
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2014. 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. Nonstoichiometric perovskite oxides for solar thermochemical H2 and CO production. Energy Procedia. 49:2009-2018.
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2014. Oxide enthalpy of formation and band gap energy as accurate descriptors of oxygen vacancy formation energetics. Energy & Environmental Science. 7(6):1996.
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2014. 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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2013. Analytical Model of CeO 2 Oxidation and Reduction. The Journal of Physical Chemistry C. 117(46):24129-24137.
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2013. Design of Materials for Solar-Driven Fuel Production by Metal-Oxide Thermochemical Cycles. Electrochemical Society Interface. 22(4):63-68.
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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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2013. Kinetics and mechanism of solar-thermochemical H2 production by oxidation of a cobalt ferrite–zirconia composite. Energy & Environmental Science. 6(3):963.
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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. A new reactor concept for efficient solar-thermochemical fuel production. Journal of Solar Energy Engineering. 135(3):031002.
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2013. Photoelectrochemical Water Splitting: Standards, Experimental Methods, and Protocols. SpringerBriefs in Energy.
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2013. A review on development of industrial processes and emerging techniques for production of hydrogen from renewable and sustainable sources. Renewable and Sustainable Energy Reviews. 23:443-462.
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2013. Sr- and Mn-doped LaAlO3-δ for solar thermochemical H2 and CO production. Energy & Environmental Science. 6(8):2424-2428.
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2013.