Catalytic Science Series. Volume 5. Supported Metals In Catalysis

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London: Imperial College Press, 2005. — 381 с. — ISBN 1-86094-490-6.
CONTENTSPreface Preparation of SupportedMetal Catalysts Guido Mul and Jacob A. MoulijnIntroduction General Description of Preparation Methods ImpregnationCase Studies Impregnation: Preparation of Pt catalysts, the effect of the pre-treatment conditions Precipitation vs. Impregnation by Ion-exchange: Au precursors, and the effect of the method ofpreparation and selected support on performance in selective epoxidation of propene overAu/TiO<sub>2 catalysts Co-precipitation: Preparation of advanced CaCO<sub>3 supported Ag catalysts for propylene epoxidation by a novel co-precipitation route General Conclusions on the Preparation of Metal Catalysts Theoretical Description of the Metal-oxideInterface by First Principle Methods Introduction Experimental Models and Techniques on Oxide Surfaces and Metal-oxide InterfacesTheoretical Methods Physical approaches to the metal-oxide interface Methods of electronic structure calculationBasis sets and related concepts Approaches on the dynamics of the systems Interaction of Metals with MgO (001) Isolated atoms on MgO (001) Metallic films on the MgO (001) surface Interaction of metal atoms with point defects of the MgO(001) surface Interaction of metal clusters with perfect and defective MgO(001) Reactivity of metals on MgO Other properties: Mobility of metals on oxides Interaction of Metals with Other Faces of MgO and Other Alkaline-earth Oxides Metal-support Interaction Involving Ionic Oxides with Complex Structures: The Case of the α-Al<sub>2O<sub>3 (0001) Surface Interaction of Metal Atoms and Cluster with Covalent andSemicovalent Oxide Surfaces Conclusions Characterisation of SupportedMetal Catalysts by Spectroscopic Techniques Introduction Main Properties of Monometallic Systems Main Properties of Bimetallic Systems In-situ CharacterisationXAFS spectroscopies Vibrational spectroscopy Valence and core photoelectron spectroscopies Other techniquesDetermination of Dispersion and SupportedMetal Crystallite Size Introduction General Considerations Physicalmethods Chemicalmethods Recent Progress in Supported Metal Catalysed C1 Chemistry Introduction Fischer-Tropsch Synthesis Methanol Production and Higher Alcohols from SyngasHydrogenation Reactions and Other Possibilities Aimed toReuse CO<sub>2 Hydroformylation of Olefins with Synthesis Gas Catalysed Reactions Involving CH<sub>4 CH<sub>3OH to Hydrocarbons and to Other IntermediateCompoundsSupported Metal Catalysts in ReformingIntroduction Hydrogen pressure Structural Requirements of Reforming Reactions The Reforming Cycle Deactivation Observed effect of parameters Regeneration Improvements to Yields and Life The use of multimetallic catalysts in S/R Alloys and clusters Pt-Re structures Pt-ReS Pt-Ir, the rational scientific design Parallel developments in quality/purity of aluminaContinuous catalyst regeneration Pt-Sn Monofunctional Zeolite-based Reforming PtKL The technological process Conclusions Supported Metals in the Production of Hydrogen Introduction Methane Conversion Steam methane reforming Carbon formation Promoter effects Methane decomposition Nickel catalysts Diamond-supported transition metals Cobalt catalysts Nature of the carbon by-productTheoretical investigation Partial oxidation and dry reforming of methaneCatalytic mechanism and heat exchange Catalysts supports Reaction intermediates Promoting effects Perovskite and hydrotalcite precursors Alcohol ConversionMethanol Met