Ortho-metalation, rotational isomerization, and hydride–hydride coupling at rhenium (V) polyhydride complexes stabilized by aromatic amine ligands

Abstract

An ortho-metalated rhenium (V) polyhydride complex has been prepared through the reaction of ReH 7(PPh 3) 2 with 2-phenylpyridine. Additionally, a small series of neutral rhenium (V) pentahydride complexes, each of which is stabilized by an aromatic amine ligand, has been prepared. E and Z rotational isomers of the ReH 5(PPh 3) 2(aromatic amine) complexes have been observed at low temperatures by NMR spectroscopy. The E and Z rotational isomers arise from a combination of the lack of a mirror plane symmetry element orthogonal to the aromatic ring in the aromatic amine ligands and the restricted rotation about the Re–N bond in such complexes. Restricted rotation about the Re–N bond in the related complex, ReH 5(PPh 3) 2(Py) has previously been observed by Crabtree et al. The restricted rotation about the Re–N bond seems to result from π-donation of the lone electron pair on the rhenium (V) center to the π∗ system of the aromatic amine ligands. Different populations of the E and Z rotational isomers arise from interactions of substituents on the aromatic ring with the other ligands bound to rhenium. The values of Δ G ‡ for the restricted rotation about the Re–N bonds, for the complexes containing 4-phenylpyrimidine, 2-aminopyrimidine, or 2-aminopyridine, range from 9.9 to 11.3 kcal/mole. One of the new compounds reported herein, ReH 5(PPh 3) 2[1-(2-NH 2Pyr)] is the first rhenium (V) polyhydride complex to display hydride–hydride coupling in its 1H NMR spectrum.