A triad of bis(orthometalated) d⁸-complexes containing four-membered rings

Reaction of 2-LiC₆F₄PPh₂ with [MCl ₂(SEt₂)₂] in diethyl ether gives the monomeric bis(chelate) complexes trans-[M((κ²-2-C₆F ₄PPh₂)₂] [M = Pt (1), Pd (2)] or, in the case of platinum, a mixture of cis-and trans-isomers. Treatment of a mixture of NiCl₂ and 2-BrC₆F₄PPh₂ in THF with zinc dust gives trans-[Ni(κ²-2-C₆F ₄PPh₂)₂] (3). The four-membered chelate rings in 1-3 are opened on addition of the bidentate ligand 1,2-bis(diphenylphosphino) ethane (dppe), and, in the case of 3, 2,2′-bipyridine (bipy) and 1,10-phenanthroline (phen), to give complexes of the type cis-[M(κC-C ₆F₄-2-PPh₂)₂(L-L)] [L-L = dppe, M = Ni (6), Pd (7), Pt (8); M = Ni, L-L = bipy (9), phen (10)], in which the PPh₂ groups are uncoordinated. Complexes 6-8 show unexpectedly large four-bond coupling constants (⁴J_PF), in the range 75-95 Hz, between the fluorine atoms (F⁶) ortho to the metal-carbon a-bond and the phosphorus atoms of the PPh₂ groups, possibly because F ⁶ and the lone pairs on phosphorus adopt a close to synperiplanar conformation. Treatment of 2 with [PdCl₂(NCMe)₂] gives the dinuclear complex [Pd₂(μ-Cl)₂(κ²-2- C₆F₄PPh₂)₂] (11), which dimerizes in solution to the tetranuclear complex [Pd₄(μ-Cl) ₄(μ-2-C₆F₄PPh₂)₄] (12) as a result of opening of the chelate 2-C₆F₄PPh ₂ rings. Carbon monoxide inserts into a nickel-carbon a-bond of 3 to give, after oxidation, bis-2,2′-(diphenylphosphinoyl) octafluorobenzophenone, (2,2′-C₆F₄P(O)Ph ₂}₂CO (14). The molecular structures of complexes 1-3,6,8, 9, and 14 have been determined by single-crystal X-ray methods.