Zinc, Cadmium and Mercury Complexes of Redox-active Cyanomanganese Carbonyl Ligands: Intramolecular Electron Transfer Through Tetrahedral d10 Metal Centres

  1. Connelly, N.G. 1
  2. Lewis, G.R. 1
  3. Moreno, M.T. 1
  4. Orpen, A.G. 1
  1. 1 University of Bristol
    info

    University of Bristol

    Brístol, Reino Unido

    ROR https://ror.org/0524sp257

Revista:
Journal of the Chemical Society-Dalton Transactions

ISSN: 0300-9246

Año de publicación: 1998

Volumen: 11

Páginas: 1905-1911

Tipo: Artículo

beta Ver similares en nube de resultados

Otras publicaciones en: Journal of the Chemical Society-Dalton Transactions

Repositorio institucional: lock_openAcceso abierto Editor

Resumen

The redox-active cyanomanganese carbonyl ligands cis- and trans-[Mn(CN)(CO)2{P(OR)3}(dppm)] (R = Ph or Et dppm = Ph2PCH2PPh2) reacted with ZnBr2, CdI2 and Hg(NO3)2 to give the tetrahedral (at M) complexes [X2M{(μ-NC)MnLx}2] [MX2 = ZnBr2, CdI2 or Hg(NO3)2; Lx = cis- or trans-(CO)2{P(OR)3}(dppm); R = Ph or Et]; similarly [Mn(CN)(NO)PPh3)(η-C5H4Me)] gives [X2M{(μ-NC)MnLx}2] {MX2 = ZnBr2 or CdI2 Lx = (NO)-(PPh3)(η-C5H4Me)}. Treatment of [Br2Zn{(μ-NC)MnLx}2] [Lx = trans-(CO)2{P(OEt)3}(dppm)] 4 with TlPF6 in the presence of 1 or 2 equivalents of trans-[Mn(CN)(CO)2{P(OEt)3}(dppm)] gave the tetra- and penta-metallic complexes [BrZn{(μ-NC)MnLx}3][PF6] 13 and [Zn{(μ-NC)MnLx}4][PF6]2 14 [Lx = trans-(CO)2{P(OEt)3}(dppm)] respectively. Differential pulse volammetry showed that 4, 13 and 14 are oxidised to weakly interacting mixed-valence complexes. The reaction of trans-[Mn(CN)(CO)(dppm)2] with ZnBr2 or CdX2 (X = Br or I) in thf gave the bimetallic species [X2(thf)M(μ-NC)Mn(CO)(dppm)2] (MX2 = ZnBr2 or CdI2) and [Br2Cd(μ-NC)Mn(CO)(dppm)2] which are oxidised by [Fe(η-C5H5)2][PF6] to the MnII complexes [X2(thf)M(μ-NC)Mn(CO)(dppm)2][PF6] and [Br2Cd(μ-NC)Mn(CO)(dppm)2][PF6]. The crystal structures of the tetrahedral polynuclear complexes [I2Cd{(μ-NC)MnLx}2] [Lx = trans-(CO)2{P(OEt)3}(dppm)] 9 and [Br2(thf)Zn(μ-NC)Mn(CO)(dppm)2] 15 are reported, and the importance of steric effects (as quantified by cone angles) in the behaviour of cyanomanganese carbonyl ligands is noted.