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Metal—ligand bonds catalytic properties

Catalysis by Metals. Metals are among the most important and widely used industrial catalysts (69,70). They offer activities for a wide variety of reactions (Table 1). Atoms at the surfaces of bulk metals have reactivities and catalytic properties different from those of metals in metal complexes because they have different ligand surroundings. The surrounding bulk stabilizes surface metal atoms in a coordinatively unsaturated state that allows bonding of reactants. Thus metal surfaces offer an advantage over metal complexes, in which there is only restricted stabilization of coordinative... [Pg.175]

Abstract This review is a summary of supported metal clusters with nearly molecular properties. These clusters are formed hy adsorption or sirnface-mediated synthesis of metal carbonyl clusters, some of which may he decarhonylated with the metal frame essentially intact. The decarhonylated clusters are bonded to oxide or zeolite supports by metal-oxygen bonds, typically with distances of 2.1-2.2 A they are typically not free of ligands other than the support, and on oxide surfaces they are preferentially bonded at defect sites. The catalytic activities of supported metal clusters incorporating only a few atoms are distinct from those of larger particles that may approximate bulk metals. [Pg.211]

Having generated suitable (partially) cationic, Lewis acidic metal centers, several factors need to be considered to understand the progress of the alkene polymerisation reaction the coordination of the monomer, and the role (if any) of the counteranion on catalyst activity and, possibly, on the stereoselectivity of monomer enchainment. Since in d° metal systems there is no back-bonding, the formation of alkene complexes relies entirely on the rather weak donor properties of these ligands. In catalytic systems complexes of the type [L2M(R) (alkene)] cannot be detected and constitute structures more closely related to the transition state rather than intermediates or resting states. Information about metal-alkene interactions, bond distances and energetics comes from model studies and a combination of spectroscopic and kinetic techniques. [Pg.323]

The decisive factor for the catalytic activity is the metal-carbon monomer molecule has to be inserted. Essential content of the present work is the study of the stability of this metal-carbon bond as a function of the electron donor-acceptor properties of the ligands. Thus the activity of the catalytic center can be tailored. Furthermore, it could be shown experimentally, that the coordination of the monomer molecule to the free site of the active species provokes an additional destabilization of the metal-carbon bond. [Pg.470]

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See also in sourсe #XX -- [ Pg.2 , Pg.2 , Pg.2 , Pg.2 , Pg.4 , Pg.7 , Pg.14 , Pg.14 , Pg.16 ]



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Bond property

Bonding metallic properties

Bonding properties

Catalytic metals

Catalytic properties

Ligand properties

Ligands metal-ligand bonds

Metal-ligand bonding

Metal-ligand bonds

Metallic bonds metals, properties

Metals metal-ligand bond

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