Mono- and bi-nuclear titanium imido complexes supported by aryloxide ligands: fine control by ortho substituents

Abstract

Reaction of the titanium imido complexes [Ti(NR)Cl ₂ (py) ₃ ] (R = Bu ^t , C ₆ H ₃ Me ₂ -2,6 or C ₆ H ₃ Pr ⁱ ₂ -2,6; py = pyridine) with 2 equivalents of lithium aryloxide Li[OC ₆ H ₃ R′ ₂ -2,6] (R′ = Me, Pr ⁱ or Bu ^t ) afforded the mononuclear four- or five-co-ordinate or binuclear four-co-ordinate complexes [{Ti(NR)(OC ₆ H ₃ R′ ₂ -2,6) ₂ (py) _n } _m ] (m = 1, n = 1 or 2; m = 2, n = 0) depending on the identity of R and R′. The crystal structures of [Ti ₂ (µ-NBu ^t ) ₂ (OC ₆ H ₃ Me ₂ -2,6) ₄ ] 1 and [Ti(NC ₆ H ₃ Me ₂ -2,6)(OC ₆ H ₃ Me ₂ -2,6) ₂ (py) ₂ ] have been determined. Extended-Hückel molecular orbital calculations for models of 1 showed that the deviation of the µ-imido Bu ^t substituents from coplanarity with the Ti ₂ N ₂ core in this and some related species can be attributed to a second-order Jahn–Teller distortion.