Control of the migratory aptitudes of vinyl and aryl ligands in ruthenium(II) complexes

Complexes Ru(CO)₂ (CH=CHR) (C₆H₄X-4)L₂ (R=^tBu, Ph, OEt; X=H, Cl, OMe; L=PMe₃, PMe₂Ph, P(OMe)₂Ph) in which the two phosphorus ligands are mutually cis (isomer 1) react readily with ligands ^tBuNC, CO and P(OMe)₃ to give complexes in which one of the organic ligands has migrated onto a carbonyl ligand. Vinyl migration products (5) retain the mutually cis geometry of the phosphorus ligands, and are unstable: one of the decomposition products is the ketone RCH=CHC(O)C₆H₄X-4. Phenyl migration products (4) are stable and have the phosphorus ligands in mutually trans positions; an X-ray crystal structure of Ru(CO) (CN^tBu) {C(O)Ph} (CH=CHPh) (PMe₂Ph)₂ was obtained. In both cases, the incoming ligand enters trans to the newly formed acyl ligand. Vinyl migration is favoured over aryl migration by electron-donating substituents on the vinyl ligand, electron-withdrawing substituents on the aryl ligand, good σ-donor phosphorus ligands and use of ^tBuNC as the incoming ligand. The rate of phenyl migration in Ru(CO)₂(CH=CHPh)Ph(PMe₂Ph)₂ is independent of ^tBuNC concentration: k=1.5 × 10^?3 s^?1 at 20°C. Isomer 3 of complexes Ru(CO)₂(CH=CHR) (C₆H₄X-4)L₂ in which the phosphorus ligands are mutually trans is much less reactive towards migration reactions. The reactivity of isomer 1 is attributed to the steric strain of two mutually cis phosphorus ligands.