Structural and morphological investigation of a cobalt catalyst supported on alumina-baria: effects of redox treatments on the activity in the NO reduction by CO
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G. Pantaleo | G. Marcì | L. Liotta | G. Deganello | G. Carlo | G. Pantaleo
[1] N. Bion,et al. Alkali metal-doped cobalt oxide catalysts for NO decomposition , 2003 .
[2] G. Pantaleo,et al. CoOx catalysts supported on alumina and alumina-baria: influence of the support on the cobalt species and their activity in NO reduction by C3H6 in lean conditions , 2003 .
[3] E. Fridell,et al. On the Catalytic Activity of Co3O4 in Low-Temperature CO Oxidation , 2002 .
[4] G. Arena,et al. A study of the behaviour of Pt supported on CeO2–ZrO2/Al2O3–BaO as NOx storage–reduction catalyst for the treatment of lean burn engine emissions , 2002 .
[5] T. Horiuchi,et al. Selective Catalytic Reduction of NO by C3H6 over Co/Al2O3 Catalyst with Extremely Low Cobalt Loading , 2002 .
[6] E. Fridell,et al. A Mechanistic Study of Low Temperature CO Oxidation over Cobalt Oxide , 2001 .
[7] Jonas Jansson,et al. Low-Temperature CO Oxidation over Co3O4/Al2O3 , 2000 .
[8] J. Ahola,et al. Reaction mechanism and kinetics of NOx reduction by propene on CoOx/alumina catalysts in lean conditions , 2000 .
[9] E. Fridell,et al. Low-Temperature CO Oxidation over Platinum and Cobalt Oxide Catalysts , 1999 .
[10] S. Pickering,et al. Preparation and properties of alumina-baria nano-composites , 1999 .
[11] Bernard Delmon,et al. Catalytic removal of NO , 1998 .
[12] H. Kung,et al. Co/Al2O3 lean NOx reduction catalyst , 1997 .
[13] A. Pierre,et al. Influence of the Sol-Gel Processing Method on the Structure and the Porous Texture of Nondoped Aluminas☆ , 1997 .
[14] F. Garin,et al. A comparative study of LaCoO3, CO3O4 and a mix of LaCoO3—Co3O4: II. Catalytic properties for the CO + NO reaction , 1997 .
[15] F. Garin,et al. A comparative study of LaCoO3, Co3O4 and LaCoO3—Co3O4: I. Preparation, characterisation and catalytic properties for the oxidation of CO , 1997 .
[16] M. Inaba,et al. Silica-supported cobalt catalysts for the selective reduction of nitrogen monoxide with propene , 1996 .
[17] Eric van Steen,et al. TPR Study on the Preparation of Impregnated Co/SiO2Catalysts , 1996 .
[18] H. Hamada. Selective reduction of NO by hydrocarbons and oxygenated hydrocarbons over metal oxide catalysts , 1994 .
[19] R. Lavecchia,et al. A Study of Anomalous Temperature-Programmed Reduction Profiles of Cu2O, CuO, and CuO-ZnO Catalysts , 1994 .
[20] M. Sasaki,et al. Transition metal-promoted silica and alumina catalysts for the selective reduction of nitrogen monoxide with propane , 1991 .
[21] B. Viswanathan,et al. Effect of Support and Promoter in Fischer‐Tropsch Cobalt Catalysts , 1986 .
[22] A. Hughes,et al. An XPS and TPR study of the reduction of promoted cobalt-kieselguhr Fischer-Tropsch catalysts , 1986 .
[23] J. Moulijn,et al. Temperature-programmed reduction of CoOAI2O3 catalysts , 1985 .
[24] J. P. Remeika,et al. DEFECT CHEMISTRY AND CATALYSIS IN OXIDATION AND REDUCTION OVER PEROVSKITE‐TYPE OXIDES , 1976 .
[25] Sylvie Rossignol,et al. Effect of doping elements on the thermal stability of transition alumina , 2001 .
[26] Tsunehiro Tanaka,et al. XAFS study of zirconia-supported copper catalysts for the NO–CO reaction: Deactivation, rejuvenation and stabilization of Cu species , 1998 .
[27] Y. Okamoto,et al. Preparation and characterization of highly dispersed cobalt oxide and sulfide catalysts supported on silica , 1991 .
[28] John B. Heywood,et al. Internal combustion engine fundamentals , 1988 .
[29] R. Prins,et al. Characterization of supported cobalt and cobalt-rhodium catalysts. I. Temperature-programmed reduction (TPR) and oxidation (TPO) of Co---Rh/Al2O3 , 1986 .