Biblio

Export 112 results:
Author Keyword [ Title(Asc)] Type Year
Filters: First Letter Of Last Name is A  [Clear All Filters]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
U
Liu E, Li J, Jiao L, Doan HThi Thanh, Liu Z, Zhao Z, Huang Y, Abraham K.M, Mukerjee S, Jia Q.  2019.  Unifying the Hydrogen Evolution and Oxidation Reactions Kinetics in Base by Identifying the Catalytic Roles of Hydroxyl-Water-Cation Adducts. Journal of the American Chemical Society. 141(7):3232-3239.
Kinyanjui M.K, Axmann P., Mancini M., Gabrielli G., Balasubramanian P., Boucher F., Wohlfahrt-Mehrens M., Kaiser U..  0.  Understanding the spectroscopic signatures of Mn valence changes in the valence energy loss spectra of Li-Mn-Ni-O spinel oxides. Physical Review Materials. 1(7)
T
Allendorf MD, Diver RB, Siegel NP, Miller JE.  0.  Two-step water splitting using mixed-metal ferrites: Thermodynamic analysis and characterization of synthesized materials. Energy & Fuels. 22(6):4115-4124.
Charvin P, Abanades S, Flamant G, Lemort F.  0.  Two-step water splitting thermochemical cycle based on iron oxide redox pair for solar hydrogen production. Energy. 32(7):1124-1133.
Babiniec SM, Ambrosini A, Miller JE.  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.
Yang C-K, Yamazaki Y, Aydin A, Haile SM.  0.  Thermodynamic and kinetic assessments of strontium-doped lanthanum manganite perovskites for two-step thermochemical water splitting. Journal of Materials Chemistry A.
Allendorf MD, Diver RB, Miller JE, Siegel NP.  2006.  Thermodynamic Analysis of Mixed-Metal Ferrites for Hydrogen Production by Two-Step Water Splitting. 2006:285-290.
Abanades S, Flamant G.  0.  Thermochemical hydrogen production from a two-step solar-driven water-splitting cycle based on cerium oxides. Solar Energy. 80(12):1611-1623.
Kodama T., Kondoh Y., Yamamoto R., Andou H., Satou N..  0.  Thermochemical hydrogen production by a redox system of ZrO2-supported Co(II)-ferrite. Solar Energy. 78(5):623-631.
Mulmi S, Chen H, Hassan A, Marco JF, Berry FJ, Sharif F, Slater PR, Roberts EPL, Adams S, Thangadurai V.  2017.  Thermochemical CO 2 splitting using double perovskite-type Ba 2 Ca 0.66 Nb 1.34−x Fe x O 6−δ. Journal of Materials Chemistry A. 5(15):6874-6883.
Roeb M., Säck J.-P., Rietbrock P., Prahl C., Schreiber H., Neises M., de Oliveira L., Graf D., Ebert M., Reinalter W. et al..  0.  Test operation of a 100kW pilot plant for solar hydrogen production from water on a solar tower. Solar Energy. 85(4):634-644.
S
Ehrhart BD, Muhich CL, Al-Shankiti I, Weimer AW.  0.  System efficiency for two-step metal oxide solar thermochemical hydrogen production – Part 1: Thermodynamic model and impact of oxidation kinetics. International Journal of Hydrogen Energy. 41(44):19881-19893.
Ehrhart BD, Muhich CL, Al-Shankiti I, Weimer AW.  0.  System efficiency for two-step metal oxide solar thermochemical hydrogen production – Part 2: Impact of gas heat recuperation and separation temperatures. International Journal of Hydrogen Energy. 41(44):19881-19893.
Ehrhart BD, Muhich CL, Al-Shankiti I, Weimer AW.  0.  System efficiency for two-step metal oxide solar thermochemical hydrogen production – Part 3: Various methods for achieving low oxygen partial pressures in the reduction reaction. International Journal of Hydrogen Energy. 41(44):19881-19893.
Ambrosini A, Stechel EB, Coker ENicholas, Miller JE, Ohlhausen JAnthony, Rodriguez MA.  2011.  Synthesis and characterization of oxide materials for thermochemical CO2 splitting using concentrated solar energy..
Ambrosini A, Coker EN, Rodriguez MA, Livers S, Evans LR, Miller JE, Stechel EB.  2010.  Synthesis and characterization of ferrite materials for thermochemical CO2 splitting using concentrated solar energy. :1–13.
Laboratories ASandia Nat, Miller JE, Diver, Jr. RB, Siegel NPhillip, Coker E, Ambrosini A, Dedrick DE, Allendorf MD, McDaniel AH, Kellogg GL et al..  0.  Sunshine to Petrol: A Metal Oxide-Based Thermochemical Route to Solar Fuels.
Laboratories ASandia Nat, Miller JE, Diver, Jr. RB, Siegel NPhillip, Coker E, Ambrosini A, Dedrick DE, Allendorf MD, McDaniel AH, Kellogg GL et al..  0.  Sunshine to Petrol: A Metal Oxide-Based Thermochemical Route to Solar Fuels.
Miller JE, Evans LR, Siegel NP, Diver RB, Gelbard F, Ambrosini A, Allendorf MD.  2009.  Summary Report: Direct Approaches for Recycling Carbon Dioxide into Synthetic Fuel.
Miller JE, Evans LR, Siegel NP, Diver RB, Gelbard F, Ambrosini A, Allendorf MD.  2009.  Summary Report: Direct Approaches for Recycling Carbon Dioxide into Synthetic Fuel.
Artini C., Carnasciali M.M, Viviani M., Presto S., Plaisier J.R, Costa G.A, Pani M..  0.  Structural properties of Sm-doped ceria electrolytes at the fuel cell operating temperatures. Solid State Ionics. 315:85-91.
Artini C, Pani M, Carnasciali MMaddalena, Buscaglia MTeresa, Plaisier JRikkert, Costa GAndrea.  0.  Structural Features of Sm- and Gd-Doped Ceria Studied by Synchrotron X-ray Diffraction and μ-Raman Spectroscopy. Inorganic Chemistry. 54(8):4126-4137.
Spanos I, Auer AA, Neugebauer S, Deng X, Tüysüz H, Schlögl R.  0.  Standardized Benchmarking of Water Splitting Catalysts in a Combined Electrochemical Flow Cell/Inductively Coupled Plasma–Optical Emission Spectrometry (ICP-OES) Setup. ACS Catalysis. 7(6):3768-3778.
McDaniel AH, Miller EC, Arifin D, Ambrosini A, Coker EN, O'Hayre R, Chueh WC, Tong J.  2013.  Sr- and Mn-doped LaAlO3-δ for solar thermochemical H2 and CO production. Energy & Environmental Science. 6(8):2424-2428.
McDaniel AH, Miller EC, Arifin D, Ambrosini A, Coker EN, O'Hayre R, Chueh WC, Tong J.  2013.  Sr- and Mn-doped LaAlO3-δ for solar thermochemical H2 and CO production. Energy & Environmental Science. 6(8):2424-2428.