Efficient and stable oxidative steam reforming of ethanol for hydrogen production: Effect of in situ dispersion of Ir over Ir/La2O3
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Hao Yu | Minqiang Pan | Hongqing Chen | Feng Peng | M. Pan | Hao Yu | F. Peng | Hongjuan Wang | Hongjuan Wang | Jian Yang | Jian Yang | Hongqing Chen | Minqiang Pan | Jian Yang
[1] Viktor Hacker,et al. Hydrogen for fuel cells from ethanol by steam-reforming, partial-oxidation and combined auto-thermal reforming: A thermodynamic analysis , 2008 .
[2] Ulf Schuchardt,et al. The effects of La2O3 on the structural properties of La2O3–Al2O3 prepared by the sol–gel method and on the catalytic performance of Pt/La2O3–Al2O3 towards steam reforming and partial oxidation of methane , 2008 .
[3] F. Mondragón,et al. Dual Active-Site Mechanism for Dry Methane Reforming over Ni/La2O3 Produced from LaNiO3 Perovskite , 2008 .
[4] N. Homs,et al. Use of biofuels to produce hydrogen (reformation processes). , 2008, Chemical Society reviews.
[5] D. Duprez,et al. New Active and Selective Rh-REOx-Al2O3 Catalysts for Ethanol Steam Reforming , 2008 .
[6] Wenjie Shen,et al. Hydrogen production by steam reforming of ethanol over an Ir/CeO2 catalyst: Reaction mechanism and stability of the catalyst , 2008 .
[7] G. Jacobs,et al. Steam reforming, partial oxidation, and oxidative steam reforming of ethanol over Pt/CeZrO2 catalyst , 2008 .
[8] J. Fierro,et al. Structural features and performance of LaNi1 xRhxO3 system for the dry reforming of methane , 2008 .
[9] J. Fierro,et al. Oxidative steam-reforming of ethanol over Co/SiO2, Co–Rh/SiO2 and Co–Ru/SiO2 catalysts: Catalytic behavior and deactivation/regeneration processes , 2008 .
[10] M. Laborde,et al. Ethanol steam reforming on Ni/Al2O3 catalysts: Effect of Mg addition , 2008 .
[11] J. Fierro,et al. Enantioselective hydrogenation of 1-phenyl-1,2-propanedione, ethyl pyruvate and acetophenone on Ir/SiO2 catalysts: Effect of iridium loading , 2008 .
[12] Yongdan Li,et al. Thermodynamic Analysis of Hydrogen Production from Oxidative Steam Reforming of Ethanol , 2008 .
[13] Rufino M. Navarro,et al. Ethanol steam reforming over Ni/La–Al2O3 catalysts: Influence of lanthanum loading , 2007 .
[14] S. Freni,et al. Bio-ethanol, a suitable fuel to produce hydrogen for a molten carbonate fuel cell , 2007 .
[15] J. Fierro,et al. Hydrogen production reactions from carbon feedstocks: fossil fuels and biomass. , 2007, Chemical reviews.
[16] J. Fierro,et al. Ethanol steam reforming over Ni/MxOy–Al2O3 (M=Ce, La, Zr and Mg) catalysts: Influence of support on the hydrogen production , 2007 .
[17] T. Mallouk,et al. Bidentate dicarboxylate capping groups and photosensitizers control the size of IrO2 nanoparticle catalysts for water oxidation. , 2007, The journal of physical chemistry. B.
[18] G. Bonura,et al. Steam and auto-thermal reforming of bio-ethanol over MgO and CeO2 Ni supported catalysts , 2006 .
[19] F. Mondragón,et al. CO2 reforming of CH4 over La–Ni based perovskite precursors , 2006 .
[20] M. Engelhard,et al. Effects of nanocrystalline CeO2 supports on the properties and performance of Ni–Rh bimetallic catalyst for oxidative steam reforming of ethanol , 2006 .
[21] T. Masui,et al. Synthesis of crystalline yttrium oxycarbonate in a single phase , 2005 .
[22] L. Schmidt,et al. Partial oxidation of alcohols to produce hydrogen and chemicals in millisecond-contact time reactors , 2005 .
[23] Lanny D. Schmidt,et al. Catalytic partial oxidation of ethanol over noble metal catalysts , 2005 .
[24] T. Masui,et al. Synthesis of a new green-emitting phosphor based on lanthanum oxycarbonate (La2O2CO3-II) , 2005 .
[25] Agus Haryanto,et al. Current status of hydrogen production techniques by steam reforming of ethanol : A review , 2005 .
[26] Rufino M. Navarro,et al. Production of hydrogen by oxidative reforming of ethanol over Pt catalysts supported on Al2O3 modified with Ce and La , 2005 .
[27] L. Schmidt,et al. Steam reforming and water–gas shift of ethanol on Rh and Rh–Ce catalysts in a catalytic wall reactor , 2004 .
[28] Aharon Gedanken,et al. Using sonochemistry for the fabrication of nanomaterials. , 2004, Ultrasonics sonochemistry.
[29] J. Fierro,et al. Effect of sodium addition on the performance of Co-ZnO-based catalysts for hydrogen production from bioethanol , 2004 .
[30] X. Verykios,et al. Renewable Hydrogen from Ethanol by Autothermal Reforming , 2004, Science.
[31] F. Frusteri,et al. Performance of Rh/Al2O3 catalyst in the steam reforming of ethanol: H2 production for MCFC , 2003 .
[32] F. Martínez,et al. Pulse study of CO2 reforming of methane over LaNiO3 , 2003 .
[33] D. Das,et al. Thermochemistry of La2O2CO3 decomposition , 2003 .
[34] A. Peigney,et al. Carbon nanotubes by a CVD method. Part I: Synthesis and characterization of the (Mg, Fe)O catalysts , 2002 .
[35] X. Verykios,et al. Production of hydrogen for fuel cells by reformation of biomass-derived ethanol , 2002 .
[36] X. Verykios,et al. Carbon and Oxygen Reaction Pathways of CO2 Reforming of Methane over Ni/La2O3 and Ni/Al2O3 Catalysts Studied by Isotopic Tracing Techniques , 1999 .
[37] Toshimitsu Suzuki,et al. Partial oxidation of methane to synthesis gas over iridium-nickel bimetallic catalysts , 1999 .
[38] A. Kiennemann,et al. Stabilisation of active nickel catalysts in partial oxidation of methane to synthesis gas by iron addition , 1999 .
[39] Toshimitsu Suzuki,et al. Partial oxidation of methane to synthesis gas over supported iridium catalysts , 1998 .
[40] K. Suslick,et al. Sonochemical Synthesis of Iron Colloids , 1996 .
[41] M. Che,et al. Infrared Study of the Formation and Stability of La2O2CO3 During the Oxidative Coupling of Methane on La2O3 , 1993 .
[42] K. Suslick,et al. The Temperature of Cavitation , 1991, Science.
[43] J. Attfield,et al. Structure determinations of La2O2CO3-II and the unusual disordered phase La2O2.52(CO3)0.74Li0.52 using powder diffraction , 1989 .
[44] G. Wertheim,et al. Conduction-electron screening in metallic oxides: IrO2 , 1980 .
[45] John Aurie Dean,et al. Lange's Handbook of Chemistry , 1978 .