Biblio
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0. Density Functional Theory Modeling of MnO 2 Polymorphs as Cathodes for Multivalent Ion Batteries. The Journal of Physical Chemistry C. 122(16):8788-8795.
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0. 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. 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. Experimental study on porous current collectors of PEM electrolyzers. International Journal of Hydrogen Energy. 37(9):7418-7428.
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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. 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. Maximizing fuel production rates in isothermal solar thermochemical fuel production. Applied Energy. 183:1098-1111.
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0. Reactive ceramics of CeO2–MOx (M=Mn, Fe, Ni, Cu) for H2 generation by two-step water splitting using concentrated solar thermal energy. Energy. 32(5):656-663.
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0. Solar-to-hydrogen efficiency: shining light on photoelectrochemical device performance. Energy & Environmental Science. 9(1):74-80.
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0. Structural Change of the Mn Cluster during the S2→S3 State Transition of the Oxygen-Evolving Complex of Photosystem II. Does It Reflect the Onset of Water/Substrate Oxidation? Determination by Mn X-ray Absorption Spectroscopy Journal of the American Chemical Society. 122(14):3399-3412.
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0. Structural Change of the Mn Cluster during the S2→S3 State Transition of the Oxygen-Evolving Complex of Photosystem II. Does It Reflect the Onset of Water/Substrate Oxidation? Determination by Mn X-ray Absorption Spectroscopy Journal of the American Chemical Society. 122(14):3399-3412.
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0. Surface Defect Chemistry and Electronic Structure of Pr 0.1 Ce 0.9 O 2−δ Revealed in Operando. Chemistry of Materials. 30(8):2600-2606.
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0. Thermochemical hydrogen production by a redox system of ZrO2-supported Co(II)-ferrite. Solar Energy. 78(5):623-631.
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0. Thermochemical Two-Step Water Splitting by ZrO2-supported NixFe3−xO4 for Solar Hydrogen Production. Solar Energy. 82(1):73-79.
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0. Thermodynamic and kinetic assessments of strontium-doped lanthanum manganite perovskites for two-step thermochemical water splitting. Journal of Materials Chemistry A.
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0. Thermodynamic and kinetic assessments of strontium-doped lanthanum manganite perovskites for two-step thermochemical water splitting. Journal of Materials Chemistry A.
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0. Understanding Chemical Expansion in Non-Stoichiometric Oxides: Ceria and Zirconia Case Studies. Advanced Functional Materials. 22(9):1958-1965.
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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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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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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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2016. Application of SR methods for the study of nanocomposite materials for Hydrogen Energy. 84:397-406.
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2016. Critical limitations on the efficiency of two-step thermochemical cycles. Solar Energy. 123:57-73.
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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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2016. X-ray absorption study of ceria nanorods promoting the disproportionation of hydrogen peroxide. ChemComm. 52(28):5003-5006.
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2017. Self-optimizing, highly surface-active layered metal dichalcogenide catalysts for hydrogen evolution. Nature Energy. 6:17127.