Abstract

The structural dependence of the coupling constant in a series of [L3Cu(μ-C2O4)CuL3]2+complexes is analyzed by means of ab initio difference-dedicated configuration interaction (DDCI2) calculations on the model (μ-oxalato)bis[triamminecopper(II)] cation, [(NH3)6Cu2(μ-C2O4)]2+, in which the nitrogen-coordinated ligands have been substituted by NH3. Two types of geometrical structures have been considered: three different C2h geometries and four crystallographic centrosymmetric geometries taken from [(Et5dien)2Cu2(μ-C2O4)](BPh4)2 and [(Et5dien)2Cu2(μ-C2O4)](PF6)2 (Et5dien = 1,1,4,7,7-pentaethyldiethylenetriamine), [(tmen,2-MeIm)2Cu2(μ-C2O4)](PF6)2 (tmen = N,N,N‘,N‘-tetramethylethylenediamine and 2-MeIm = 2-methylimidazole), and [(dien)2Cu2(μ-C2O4)](ClO4)2 (dien = diethylenetriamine). The results show that the antiferromagnetic coupling is strongly underestimated when pure DDCI2 calculations are performed, but when the CI space includes the relaxation of the oxalato-copper charge transfer, quantitative agre...

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