Journal ArticleDOI
Theoretical study of the activation of carbon-carbon bonds by transition metal atoms
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TLDR
In this article, the transition metal activation of C-C bonds in ethane, cyclopropane, and cyclobutane has been studied for the entire second row of transition metal atoms for both equilibrium states and transition states.Abstract:
Quantum chemical model studies have been performed for the transition metal activation of C-C bonds in ethane, cyclopropane, and cyclobutane. Both the ethane and cyclobutane reactions have been studied for the entire second row of transition metal atoms, for both equilibrium states and transition states. For cyclobutane the first transition metal series has also been studied. The cyclopropane reaction has only been fully studied for rhodium and palladium. The quantum chemical calculations include a size-consistent treatment of electron correlation of all the valence electrons with fairly large basis sets including f functions on the metal. The geometries have been fully optimized. Palladium is found to have the smallest barriers for the C-C bond breaking reaction, and the C-C bond in cyclopropane is easiest to break, in line with general experimental experience for transition metal complexes. 38 refs., 6 figs., 11 tabs.read more
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Journal ArticleDOI
The activation strain model of chemical reactivity
TL;DR: An account of the activation strain model of chemical reactivity and its recent applications is provided to arrive at a qualitative understanding of the trends in activation barriers and transition-state geometries in terms of the reactants' properties.
Journal ArticleDOI
Concepts in Theoretical Heterogeneous Catalytic Reactivity
TL;DR: Theoretical treatments of adsorbate-surface interactions have rapidly advanced to the stage where detailed understandings of the governing structural and electronic features are readily available as discussed by the authors, and this has to date been an unattainable goal due to the limitations in both raw computer (CPU) requirements and the accuracy of available computational methods.
Journal ArticleDOI
Studies of Metal Oxide Clusters: Elucidating Reactive Sites Responsible for the Activity of Transition Metal Oxide Catalysts
TL;DR: In this article, a comprehensive program is underway in which reactivity studies of transition metal oxide clusters are carried out using a tandem mass spectrometer system coupled to a laser vaporization source.
Journal ArticleDOI
Transition-state energy and position along the reaction coordinate in an extended activation strain model.
TL;DR: The purpose is to arrive at a qualitative understanding, based on accurate calculations, of the trends in activation barriers and transition state (TS) geometries in terms of the reactants' properties, and to understand qualitatively, trends in the position of the TS along zeta.
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