Electron transfer and chloride ligand dissociation in complexes [(C(5)Me(5))ClM(bpy)](+)/[(C(5)Me(5))M(bpy)](n) (M=Co, Rh, Ir; n=2+,+,0,-): A combined electrochemical and spectroscopic investigation

被引：54

作者：

Kaim, W ^{[1
]}

Reinhardt, R ^{[1
]}

Waldhor, E ^{[1
]}

Fiedler, J ^{[1
]}

机构：

[1] ACAD SCI CZECH REPUBL, J HEYROVSKY INST PHYS CHEM, CZ-18223 PRAGUE, CZECH REPUBLIC

来源：

JOURNAL OF ORGANOMETALLIC CHEMISTRY | 1996年 / 524卷 / 1-2期

关键词：

cobalt; electrochemistry; electron spin resonance; mechanism; electron transfer; group; 9;

D O I：

10.1016/S0022-328X(96)06426-1

中图分类号：

O61 [无机化学];

学科分类号：

070301 ; 081704 ;

摘要：

In contrast to the rapid and chemically reversible two-electron ECE' reductive elimination reaction [(C(5)Me(5))ClM(bpy)](+) + 2e(-) --> (C(5)Me(5))M(bpy) + Cl-, M = Rh or Ir, the analogous cobalt system exhibits two separate one-electron steps (EC + E' process) with a persistent, EPR-spectroscopically characterized cobalt(II) intermediate [(C(5)Me(5))Co(bpy)](+). Within the series of coordinatively unsaturated homologous species (C,Me,)M(bpy), the cobalt derivative exhibits the smallest and the iridium homologue the largest metal(I)-to-bpy electron transfer in the ground state, as evident from electrochemical potentials and long-wavelength absorption data. A comparison within that homologous series indicates why the rhodium system, with its intermediate position, is most suitable for hydride transfer catalysis.

引用

页码：195 / 202

页数：8

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