Abstract
Two two-dimensional coordination networks were prepared by the reaction of a bent bridging ligand, bis(4-pyridyl)amine ( bpa), with CuI and CuCl 2. Both networks were formed by bpa ligands bridging between Cu 2I 2 dimers or six-coordinate trans CuCl 2 moieties. The networks were isotopological and displayed (4, 4) topology with nodes based on the midpoint of the Cu 2I 2 dimer or the Cu(II) ion, respectively. Reaction of a monoprotonated bpa ligand with CuSO 4 resulted in the formation of a neutral discrete complex. H-bonding networks were formed in all three cases. The two coordination polymers were both extended to give related three-dimensional networks with the resulting CuI H-bonded network displaying twofold interpenetration. The discrete neutral complex formed a two-dimensional H-bonded network and when further H-bonding to H 2O solvent molecules was considered, a highly complex three-dimensional network resulted with five different nodes of four different connectivities.
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