Solvent Effects on the Activation Barriers of Olefin Epoxidation − A Density Functional Study

A spiro attack on a peroxo group is calculated to be the preferred reaction pathway for olefin epoxidation with the catalytic system CH ReO /H O (see picture). This finding is supported by density functional calculations on more than ten transition states for the most probable mechanisms. Hydration

Simple functional models for elementary steps in the total oxidation of methane over supported palladium catalysts were investigated using density functional theory. Three simple cluster models were proposed, namely, the palladium dimer and PdO diatomic and linear Pd O, to probe the mechanism of the

The mechanism of copper(I)-catalyzed olefin cyclopropanation with diazomethanes has been studied at the BP86/AE1 level of density-functional theory. For the model system Cu(diazabutadiene) + + ethene + diazomethane, copper carbene complexes are confirmed as viable intermediates, with rate-determinin

The effect of donor substitution by the hydroxy group and of closely connected with the radical stabilizing properties of the substituents. As indicated by singlet/triplet splitting acceptor substitution by the cyano group on the activation energies of the vinylcyclopropane-cyclopentene rearrange-en

Density functional calculations (B3LYP/6-31G\*) have been results of these calculations, when compared to those obtained with more sophisticated multi-determinant calcu-carried out for cyclopropanone and the singlet and triplet electronic states of oxyallyl, as well as for several bicyclic lations p