Aryl diimine complexes

In both complexes, llb,d, the Pd-I bond trans to the phosphorus atom (Pdl—12 in 11b and Pdl-Il in lid) is longer (0.08 and 0.09 A) than the Pd-I bond trans to the nitrogen atom, which might be attributed to the larger trans influence of the phosphorus compared to nitrogen (imine and pyridine) [45]. In the solid state one of the o-aryl substituents in complex llb,d (methyl in the case of 11b and isopropyl in the case of lid) is oriented above/below the coordination plane. A connection between shielding of the metal center along the z-axis and chain transfer reactions was found for several diimine complexes [22 c, 33 b, 41, 42 c]. 

An interesting extrapolation of this synthesis deals with the preparation of the bispyridinium salt 62 from 1,2-phthalic dicarboxaldehyde and its subsequent reaction with primary amines (92BSB509).Tlie expected diimines 63 readily cyclize so that 2-aryl-l-arylimino-2,3-dihydro-l//-isoindoles 64 can be isolated in excellent yields (90-95%). Contrary to the reactions performed by employing the dialdehyde and amines directly, the syntheses involving the azinium salts do not produce those typical dark-colored complex mixtures of products (77JOC4217 85JHC449) (Scheme 20). 

The meta-selectivity for toluene activation, observed for both systems, is very unusual (Fig. 5). Also remarkable is the switch in selectivity from aryl C-H activation to benzylic activation inp-xylene, just by changing the chelate ligand from the diimine equipped with trifluoromethyl substitutents in the meta-positions of the phenyl residue to the diimine bearing methyl substituents in the ortho-positions (Fig. 5). The authors suggested that the C-H bond activation is reversible and the isomeric a-methane complexes are in equilibrium prior to the substitution of... 

The influence of steric effects on the rates of oxidative addition to Rh(I) and migratory CO insertion on Rh(III) was probed in a study of the reactivity of a series of [Rh(CO)(a-diimine)I] complexes with Mel (Scheme 9) [46]. For a-diimine ligands of low steric bulk (e.g. bpy, L1, L4, L5) fast oxidative addition of Mel was observed (103-104 times faster than [Rh(CO)2l2] ) and stable Rh(III) methyl complexes resulted. For more bulky a-diimine ligands (e.g. L2, L3, L6) containing ortho-alkyl groups on the N-aryl substituents, oxidative addition is inhibited but methyl migration is promoted, leading to Rh(III) acetyl products. The results obtained from this model system demonstrate that steric effects can be used to tune the relative rates of two key steps in the carbonylation cycle. 

Gold(III) Alkyl and Aryl Complexes with Ancillary Diimine Ligands. . . . 298... 

In addition to the organogold(III) diimine system described in the previous section, ancillary aryls could also be incorporated as part of the diimine ligand moiety in obtaining luminescent gold(III) complexes. A series of cydometallated chlorogold(III) complexes, [Au(NANAC)Cl]+ 15a,b... 

The combination of dithiolene and diimine chelating ligands in square-planar ds complexes gives rise to a unique CT excited state, and complexes of this class have been the subject of a rich and growing amount of research in recent years. The Pt(diimine)(dithiolene) complexes were among the earliest examples of emission from square-planar metal complexes in fluid solution. Luminescence from room temperature solutions of Pt(diimine)(mnt) complexes with diimine = bpy, phen, or an alkyl- or aryl-substituted derivative was reported in 1990 by Zuleta et al. (98, 99), following an initial report on similar complexes with a 1,1-dithiolate. 

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