Compounds with unbridged dative metal-metal bonds of formula (R₃P)₂(OC)₃OsW(CO)₅ and related complexes

Complexes of formula (R₃P)₂(OC)₃OsW(CO)₅ and similar complexes have been prepared from W(CO)₅(THF) and Os(CO)₃(PR₃)₂ in CH₂Cl₂/hexane at room temperature. The analogous Cr complexes could not be synthesized except for [MeC(CH₂O)₃P]₂(OC)₃OsCr(CO)₅ and (Me₂PCH₂CH₂PMe₂)(OC)₃OsCr(CO)₅, that is, with sterically undemanding P substituents. Tungsten compounds with P ligands with cone angles greater than approx. 125° could also not be prepared. The crystal structures of (Me₂PCH₂CH₂PMe₂)(OC)₃OsM(CO)₅ (M = Cr, W), [MeC-(CH₂O)₃P]₂(OC)₃OsW(CO)₅ (2), (OC)₃(Me₃P)₂OsW(CO)₅, (3), [MeC(CH₂O)₃P](OC)₃(Me₃P)OsW(CO)₅, (4), and [(MeO)₃P](OC)₃(Me₃P)OsW(CO)₅ (5) reveal that all have unbridged OsM bonds that are considerably longer than the corresponding OsM bond in (Me₃P)(OC)₄OsM(CO)₅. The P ligands have an axial, radial arrangement except in 3, where the PMe₃ ligands have a trans, diradial orientation. In 4 and 5 the phosphite ligands are in the site trans to the OsW bond even though they have smaller cone angles than the PMe₃ ligand. Solution NMR data indicates that for 2 and 3 both the ax,rad and dirad isomers are present; for 4 both ax,rad forms are present, whereas for 5 only the solid state form is found. There was no evidence in solution for the dirad forms of 4 and 5. (The ¹³C NMR spectra of the compounds also indicated that ²J_PC becomes zero for PMC angles of about 103°). The unusual site preference of the P ligands in these molecules is interpreted in terms of steric effects and an electronic preference for a good π-acceptor ligand to adopt the position trans to the dative metal-metal bond. Complexes 2, 3, and 5 react with PPh₃ in CH₂Cl₂ at room temperature over 2 days to give W(CO)₅(PPh₃) and Os(CO)₃(PR₃)(PR′₃) in the order 3 > 5 > 2.