Cluster-based copper(II) coordination polymers with azido bridges and chiral magnets

Three homochiral layered complexes, Cu3(R-chea)2(N3)6]n (1), Cu3(S-chea)2(N3)6]n (2) (chea = 1-cyclohexylethylamine) and Cu3(S-phpa)2(N3)6]n (3) (phpa = 1-phenylpropylamine), and three novel cluster-based coordination polymers, Cu6(1,2-pn)4(N3)12]n (4) (1,2-pn = 1,2-diaminopropane), Cu8(en)4(N3)16] x H2O]n (5) (en = ethylenediamine) and Cu6(N-Ipren)2(N3)12]n (6) (N-Ipren = N-isopropylethylenediamine), have been synthesized by the self-assembly reactions of Cu(NO3)2 x 3H2O, NaN3 and small organic amine ligands. Their crystal structures are determined by single-crystal X-ray diffraction. Complexes are composed of neutral 2D brick wall networks with only end-on azido bridges. Complexes and are 3D coordination polymers featuring copper-azido clusters and Cu(diamine)2]2+ units which are linked by the azido bridges. Complex is a 3D coordination framework based on the hexanuclear copper(II) clusters Cu6(N3)12(N-Ipren)2]. Magnetic studies show that complexes are interesting chiral ferromagnets with the magnetic transition temperature at ca. 5.0 K. Complexes and show ferromagnetic coupling in the copper-azido cluster units and antiferromagnetic interaction between neighboring units, while complex shows ferromagnetic ordering at 3.2 K.