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Trigonal Planar Copper(I) Complex:  Synthesis, Structure, and Spectra of a Redox Pair of Novel Copper(II/I) Complexes of Tridentate Bis(benzimidazol-2‘-yl) Ligand Framework as Models for Electron-Transfer Copper Proteins

The copper(II) and copper(I) complexes of the chelating ligands 2,6-bis(benzimidazol-2‘-ylthiomethyl)pyridine (bbtmp) and N,N-bis(benzimidazol-2‘-ylthioethyl)methylamine (bbtma) have been isolated and characterized by electronic and EPR spectra. The molecular structures of a redox pair of Cu(II/I) c...

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Bibliographic Details
Published in:Inorganic chemistry 2001-05, Vol.40 (10), p.2246-2255
Main Authors: Balamurugan, Ramalingam, Palaniandavar, Mallayan, Gopalan, R. Srinivasa
Format: Article
Language:English
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Summary:The copper(II) and copper(I) complexes of the chelating ligands 2,6-bis(benzimidazol-2‘-ylthiomethyl)pyridine (bbtmp) and N,N-bis(benzimidazol-2‘-ylthioethyl)methylamine (bbtma) have been isolated and characterized by electronic and EPR spectra. The molecular structures of a redox pair of Cu(II/I) complexes, viz., [Cu(bbtmp)(NO3)]NO3, 1, and [Cu(bbtmp)]NO3, 2, and of [Cu(bbtmp)Cl], 3, have been determined by single-crystal X-ray crystallography. The cation of the green complex [Cu(bbtmp)(NO3)]NO3 possesses an almost perfectly square planar coordination geometry in which the corners are occupied by the pyridine and two benzimidazole nitrogen atoms of the bbtmp ligand and an oxygen atom of the nitrate ion. The light-yellow complex [Cu(bbtmp)]NO3 contains copper(I) with trigonal planar coordination geometry constituted by the pyridine and two benzimidazole nitrogen atoms of the bbtmp ligand. In the yellow chloride complex [Cu(bbtmp)Cl] the asymmetric unit consists of two complex molecules that are crystallographically independent. The coordination geometry of copper(I) in these molecules, in contrast to the nitrate, is tetrahedral, with pyridine and two benzimidazole nitrogen atoms of bbtmp ligand and the chloride ion occupying the apexes. The above coordination structures are unusual in that the thioether sulfurs are not engaged in coordination and the presence of two seven-membered chelate rings facilitates strong coordination of the benzimidazole nitrogens and discourage any distortion in Cu(II) coordination geometry. The solid-state coordination geometries are retained even in solution, as revealed by electronic, EPR, and 1H NMR spectra. The electrochemical behavior of the present and other similar CuN3 complexes has been examined, and the thermodynamic aspects of the electrode process are correlated to the stereochemical reorganizations accompanying the redox changes. The influence of coordinated pyridine and amine nitrogen atoms on the spectral and electrochemical properties has been discussed.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic0003372