Biblio
Export 35 results:
Author Keyword Title [ Type
] Year Filters: First Letter Of Title is T [Clear All Filters]
.
0. T–S diagram efficiency analysis of two-step thermochemical cycles for solar water splitting under various process conditions. Energy. 67:298-308.
.
0. Two-step water splitting using mixed-metal ferrites: Thermodynamic analysis and characterization of synthesized materials. Energy & Fuels. 22(6):4115-4124.
.
0. Two-step water splitting thermochemical cycle based on iron oxide redox pair for solar hydrogen production. Energy. 32(7):1124-1133.
.
2020. Tungsten oxide-coated copper gallium selenide sustains long-term solar hydrogen evolution. Sustainable Energy & Fuels. 5
.
0. Tunable oxygen vacancy formation energetics in the complex perovskite oxide SrxLa1–xMnyAl1–yO3. Chemistry of Materials. 26(22):6595-6602.
.
2020. Triple ionic–electronic conducting oxides for next-generation electrochemical devices. Nature Materials. 20
.
2019. Transition Metal Arsenide Catalysts for the Hydrogen Evolution Reaction. The Journal of Physical Chemistry C. 123:24007-24012.
.
0. Towards Solar Fuels from Water and CO 2. ChemSusChem. 3(2):195-208.
.
2018. Toward Practical Solar Hydrogen Production. Chem. 4(3):405-408.
.
0. Three Oxidation States of Manganese in the Barium Hexaferrite BaFe 12– x Mn x O 19. Inorganic Chemistry. 56(7):3861-3866.
.
2019. Thin film photoelectrodes for solar water splitting. Chemical Society Reviews. 48(7):2182-2215.
.
2021. Thin film growth effects on electrical conductivity in entropy stabilized oxides. Journal of the European Ceramic Society. 41:2617-2624.
.
2022. A Thermogravimetric Temperature-Programmed Thermal Redox Protocol for Rapid Screening of Metal Oxides for Solar Thermochemical Hydrogen Production. Frontiers in Energy Research. 10:856943.
.
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.
.
0. Thermodynamics of CeO2 thermochemical fuel production. Energy & Fuels. :150126104600001.
.
0. Thermodynamic modeling of the hybrid sulfur (HyS) cycle for hydrogen production. Fluid Phase Equilibria. 460:175-188.
.
0. Thermodynamic assessment of an electrically-enhanced thermochemical hydrogen production (EETHP) concept for renewable hydrogen generation. International Journal of Hydrogen Energy. 42(21):14380-14389.
.
0. Thermodynamic and kinetic assessments of strontium-doped lanthanum manganite perovskites for two-step thermochemical water splitting. Journal of Materials Chemistry A.
.
0. Thermodynamic analysis of isothermal redox cycling of ceria for solar fuel production. Energy & Fuels. :130812072357003.
.
2012. Thermodynamic Analysis of Cerium-based Oxides for Solar Thermochemical Fuel Production. Energy & Fuels.
.
0. Thermochemical Two-Step Water Splitting by ZrO2-supported NixFe3−xO4 for Solar Hydrogen Production. Solar Energy. 82(1):73-79.
.
0. Thermochemical two-step water splitting by internally circulating fluidized bed of NiFe2O4 particles: Successive reaction of thermal-reduction and water-decomposition steps. International Journal of Hydrogen Energy. 36(8):4757-4767.
.
2010. A thermochemical study of ceria: Exploiting an old material for new modes of energy conversion and CO2 mitigation. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 368(1923):3269-3294.
.
0. Thermochemical reactivity of 5–15mol% Fe, Co, Ni, Mn-doped cerium oxides in two-step water-splitting cycle for solar hydrogen production. Thermochimica Acta. 617:179-190.
.
0. Thermochemical hydrogen production from a two-step solar-driven water-splitting cycle based on cerium oxides. Solar Energy. 80(12):1611-1623.