Abstract
The origin of the high ortho selectivity and the reaction mechanism of the catalytic addition of an aromatic CH bond to olefins by the Ru complex Ru(H)2(CO)(PR3)3 are investigated by means of density functional theory. We assumed the three- and four-coordinate complexes Ru(CO)(PH3)n (n = 2, 3) as active species, as suggested by the experimental results, and studied the reaction of benzaldehyde with ethylene catalyzed by these model complexes. According to the computational results, in the most favorable path first the formyl oxygen of benzaldehyde coordinates to the Ru atom, and then the cleavage of the closest ortho-CH bond takes place in two steps through an unusual intermediate, 10, a mechanism completely different from the conventional oxidative addition proceeding in a single step. Before the CH bond breaking, the RuC bond is formed, being driven by the change in π bonds of the conjugated system, to lead to 10, having the RuC bond and a CH agostic interaction, and then the hydrogen of the agostic CH ...
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