POLYOXOANION-SUPPORTED CATALYST PRECURSORS - SYNTHESIS AND CHARACTERIZATION OF THE IRIDIUM(I) AND RHODIUM(I) PRECATALYSTS H9)(4)N](5)NA-3[(1,5-COD)M-CENTER-DOT-P2W15NB3O62] (M=IR, RH)

The reaction of the triniobium-substituted polyoxometalate [(n-C4H9)(4 )N]9P2W15Nb3O62 with an equimolar amount of [Ir(1,5-COD)(CH3CN)(2)]BF4 or [Rh(1,5-COD)(CH3CN)(2)]BF4 (1,5-COD = 1,5-cyclooctadiene) leads to the formation of the air-sensitive polyoxometalate-supported organome tallic complexes [(1,5-COD)IrP2W15Nb3O62](8-), and [(1,5-COD)Rh . P2W1 5Nb3O62](8-), 2. These complexes were isolated as their mixed 5[(n-C4H 9)(4)N](+)/3Na(+) salts and have been characterized by H-1, C-13, P-31 , and W-183 NMR spectroscopy as well as IR spectroscopy, sedimentation -equilibrium molecular-weight measurements, and complete elemental ana lyses. Additional studies of 1 by O-17 NMR demonstrate that the iridiu m binds in overall average C-3 nu (pseudo) symmetry to the ''Nb3O93-'' minisurface (pseudo due to the 2-fold axis in 1,5-COD and thus the lo cal C, symmetry at iridium). For 2, the results of the O-17 NMR studie s are definitive in showing that 2 can also be successfully O-17-enric hed in the niobium-oxygen sites. However, the O-17 NMR data subsequent ly acquired for 2 require the formulation of two or more (possibly rap idly interconverting) support-site isomers in solution. These O-17 NMR results provide direct evidence for the M-ONb2 bonding between [(1,5- COD)M](+) (M = Ir, Ph) and P2W15Nb3O629- in solution, where catalysis beginning with 1 and 2 as a precatalyst has been demonstrated.