AN UNUSUAL COORDINATION MODE FOR AMIDES - LONE-PAIR BINDING VIA NITROGEN

A variety of 8-amino- and amido-substituted quinolines react with [Ir( PPh(3))(2)H-2(acetone)(2)]SbF6 (1) to give a series of complexes in wh ich the amine or amide nitrogen hinds to the metal. Thp X-ray crystal structures of [Ir(H)(2)-(PPh(3))(2)(C9H6N{HNCO(t)Bu})]SbF6 (4b) and [I r(H)(2)(PPh(3))(2)(C9H6N{HNSi(t)BuMe(2)})]SbF6 (4c) were obtained: 4b, a = 9.904(4) Angstrom, b = 13.480(5) Angstrom, c = 19.346(9) Angstrom , alpha = 83.79(4), beta = 81.64 (4)degrees, gamma = 76.52(3)degrees, Z = 2, triclinic <P(1)over bar>, R = 5.37%; 4c, a = 45.24(1) Angstrom, b = 10.536(3) Angstrom, c = 25.450(7) Angstrom, beta = 111.11(2)degre es Z = 8, monoclinic R = 5.30%. The X-ray data do not allow a definite distinction between the two possible binding modes, N binding via the lone pair and N-H agostic (2e, 3-center) binding. Definitive evidence for the lone-pair-bound structure was obtained from natural-abundance N-15 heteronuclear multiple-quantum coherence (HMQC) spectroscopy and proton nuclear Overhauser effect (NOE) data. The amine or amide N the refore rehyhridizes to sp(3) on binding, a previously unreported compl exation mode for undeprotonated amides that normally coordinate via. O . Fluxional exchange processes are interpreted on the basis of N lone- pair decoordination and inversion with the possible intermediacy of an agostic species or iminol tautomer. The Ir-N bond distances (4b, 2.31 3(9) Angstrom and 4c, 2.320(10) Angstrom) are very long. The NH of the coordinated amide is much more acidic than that of the free amide and ran be deprotonated with NEt(3) to give an N-bound complex of the dep rotonated amide. In a conformationally restricted pyrrole where the N lone pair cannot bind to Ir, we find that deprotonation occurs spontan eously to give a pyrrolyl complex.