Abstract
Significant recent developments in homogeneous palladium catalysis for selective aerobic oxidation have emphasized the importance of developing a thorough comprehension of reactions of palladium complexes with O2. Density functional theory (DFT) calculations, employing the B3LYP exchange-correlation functional, have been performed to probe the mechanism for the insertion reaction of molecular oxygen into the palladium(II) hydride bond of the trans-[PdH(O2Ac)(IMes)2] complex to form the corresponding Pd(II)-hydroperoxide. A crossing between triplet and singlet surfaces occurs before the formation of a stable singlet intermediate from which the reaction straightforwardly proceeds to yield the singlet hydroperoxo complex. Results appear to be different with respect to previous analogous theoretical investigations providing a new minimum energy pathway.
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