Ariafard A.,University of Tasmani |
Ariafard A.,Islamic Azad University at Tehran |
Hyland C.J.T.,University of Tasmani |
Hyland C.J.T.,California State University, Fullerton |
And 3 more authors.
Inorganic Chemistry | Year: 2011
Reductive elimination of C-Cl and C-C bonds from binuclear organopalladium complexes containing Pd-Pd bonds with overall formal oxidation state +III are explored by density functional theory for dichloromethane and acetonitrile solvent environments. An X-ray crystallographically authenticated neutral complex, [(L-C,N)ClPd(μ-O2CMe)]2 (L = benzo[h]quinolinyl) (I), is examined for C-Cl coupling, and the proposed cation, [(L-C,N)PhPd1(μ-O2CMe)2Pd 2(L-C,N)]+ (II), examined for C-C coupling together with (L-C,N)PhPd1(μ-O2CMe)2Pd2Cl(L-C, N) (III) as a neutral analogue of II. In both polar and nonpolar solvents, reaction from III via chloride dissociation from Pd2 to form II is predicted to be favored. Cation II undergoes Ph-C coupling at Pd1 with concomitant Pd1-Pd2 lengthening and shortening of the Pd1-O bond trans to the carbon atom of L; natural bond orbital analysis indicates that reductive coupling from II involves depopulation of the dx2-y2 orbital of Pd1 and population of the dz2 orbitals of Pd1 and Pd2 as the Pd-Pd bond lengthens. Calculations for the symmetrical dichloro complex I indicate that a similar dissociative pathway for C-Cl coupling is competitive with a direct (nondissociative) pathway in acetonitrile, but the direct pathway is favored in dichloromethane. In contrast to the dissociative mechanism, direct coupling for I involves population of the dx2-y2 orbital of Pd1 with Pd1-O1 lengthening, significantly less population occurs for the dz2 orbital of Pd1 than for the dissociative pathway, and dz2 at Pd2 is only marginally populated resulting in an intermediate that is formally a Pd1(I)-Pd 2(III) species, (L-Cl-N,Cl)Pd1(μ-O2CMe) Pd2Cl(O2CMe)(L-C,N) that releases chloride from Pd 2 with loss of Pd(I)-Pd(III) bonding to form a Pd(II) species. A similar process is formulated for the less competitive direct pathway for C-C coupling from III, in this case involving decreased population of the d z2 orbital of Pd2 and strengthening of the Pd(I)-Pd(III) interaction in the analogous intermediate with η2-coordination at Pd1 by L-Ph-N, C1-C2. © 2011 American Chemical Society.