Anion Influence on the Structure and Magnetic Properties of a Series of Multidimensional Pyrimidine-2-carboxylato-Bridged Copper(II) Complexes

Seven new polynuclear copper(II) complexes of formula [Cu(μ-pymca)2] (1) (pymca− = pyrimidine-2-carboxylato), [Cu(μ-pymca)Br] (2), [Cu(μ-pymca)Cl] (3), [Cu(μ-pymca)(SCN)(H2O)]·4H2O (4), [Cu(μ-pymca)N3] (5), [Cu2(μ1,5-dca)2(pymca)2] (6) (dca = dicyanamide), and K{[μ-Au(CN)2]2[(Cu(NH3)2)2(μ-pymca)]}[A...

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Published in:Inorganic chemistry 2008-09, Vol.47 (18), p.8143-8158
Main Authors: Suárez-Varela, José, Mota, Antonio J, Aouryaghal, Hakima, Cano, Joan, Rodríguez-Diéguez, A, Luneau, Dominique, Colacio, Enrique
Format: Article
Language:English
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Summary:Seven new polynuclear copper(II) complexes of formula [Cu(μ-pymca)2] (1) (pymca− = pyrimidine-2-carboxylato), [Cu(μ-pymca)Br] (2), [Cu(μ-pymca)Cl] (3), [Cu(μ-pymca)(SCN)(H2O)]·4H2O (4), [Cu(μ-pymca)N3] (5), [Cu2(μ1,5-dca)2(pymca)2] (6) (dca = dicyanamide), and K{[μ-Au(CN)2]2[(Cu(NH3)2)2(μ-pymca)]}[Au(CN)2]2 (7) have been synthesized by reactions of K-pymca with copper(II) ions in the presence of different counteranions. Compound 1 is a linear neutral chain with a carboxylato bridging ligand in a syn−anti coordination mode, whereas complexes 2 and 3 consist of cationic linear chains with cis and trans bis(chelating) pymca bridging ligands. Complex 4 adopts a helical pymca-bridged chain structure. In complex 5, zigzag pymca-bridged chains are connected by double end-on azide bridging ligands to afford a unique honeycomb layer structure. Complex 6 is a centrosymmetric dinuclear system with double μ1,5-dicyanamide bridging ligands and pymca end-cap ligands. Complex 7 is made of pymca-bridged dinuclear [Cu(NH3)2(μ-pymca)Cu(NH3)2]3+ units connected by [Au(CN)2]− anions to four other dinuclear units, giving rise to cationic (4,4) rectangular nets, which are linked by aurophilic interactions to afford a singular 3D network. Variable-temperature magnetic susceptibility measurements show that complex 1 exhibits a very weak antiferromagnetic coupling through the syn−anti (equatorial−axial) carboxylate bridge (J = −0.57 cm−1), whereas complexes 2−4 and 7 exhibit weak to strong antiferromagnetic couplings through the bis(chelating) pymca bridging ligand (J = −17.5−276.1 cm−1). Quantum Monte Carlo methods have been used to analyze the experimental magnetic data for 5, leading to an antiferromagnetic coupling (J = −34 cm−1) through the pymca ligand and to a ferromagnetic coupling (J = 71 cm−1) through the azide bridging ligands. Complex 6 exhibits a very weak antiferromagnetic coupling through the dicyanamide bridging ligands (J = −5.1 cm−1). The magnitudes of the magnetic couplings in complexes 2−5 have been explained on the basis of the overlapping between magnetic orbitals and DFT theoretical calculations.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic800625w