アイテム詳細

要旨

This contribution describes the amine elimination process as an alternative synthetic route to traditional salt metathesis for introducing the isopropylidene-bridged unsymmetrical ligand C₅H₅-CMe₂-C₁₃H₉ (CpH-CMe₂-FluH) onto group III-metal centers (Y, La, Nd) to give in turn the neutral, ate-complex-free ansa- lanthanidocenes. The reactions of homoleptic Ln-[N(SiMe₃)₂]₃ (Ln=Y (1), La (2), Nd (3)) with CpH-CMe₂-FluH (4) in THF under mild conditions lead to the formation of ansa-complexes (η⁵),η⁵-Cp-CMe₂-Flu)Ln(η⁵-Cp-CMe₂-FluH) (Ln=Y (8), La (12), Nd (13)) in 70-84% isolated yields (based on 4). These reactions proceed via the rapidly formed bis(amido)lanthanide intermediates (η⁵-Cp-CMe₂-FluH)Ln[N(SiMe₃)₂]₂ (Ln=Y (5), La (9)), which undergo readily disproportionation/ligand redistribution reactions at 5-23 °C to give either a mono(amido)lanthanide complex (η⁵-Cp-CMe₂-FluH)₂Ln[N(SiMe₃)₂] (Ln=Y (6)) or another species assumed to be the binuclear complex (η⁵-Cp-CMe₂-FluH)₂Ln[μ-N(SiMe₃)₂]₂Ln[N(SiMe₃)₂]₂ (Ln=La (10)), respectively. Complexes 6 and 10 undergo an intramolecular amine elimination reaction under THF reflux to yield the corresponding ansa-complexes 8 and 12, respectively. The reversibility of the process has been investigated in the yttrium case: complex 8 converts back to 6 in the presence of (SiMe₃)₂NH in toluene at 90 °C with 50% conversion after 12 h. The effect of a noncoordinating apolar solvent on the reaction outcome of tris(amido) complexes 1-3 with 4 has been also studied using toluene, in which the low solubility presumably shifts the disproportionation equilibria and leads to the isolation of another class of compounds Ln(η⁵-Cp-CMe₂-FluH)₃ (Ln=Y (7), La (11)) in reasonable yields. Compounds 5-12 have been characterized in solution by 1D and 2D NMR techniques (¹H, ¹³C, ¹H-¹H COSY, and ¹H-¹³C HETCOR), and the solid state structures of 6 and of the mono(THF) adducts of ansa-lanthanidocenes 12 and 13 have been established by X-ray diffraction studies. The latter ansa-complexes feature very narrow Cp(centroid)-Ln-Flu(centroid) bite angles (Ln = La, 103.67(1)°; Ln = Nd, 105.08(1)°).