Abstract

Divalent copper coordination polymers containing flexible dipyridylpropane (dpp) and phenylenediacetate (phda) ligands display different metal cluster subunits and self-penetrated three-dimensional (3-D) topologies, depending on the disposition of the pendant arms within the anionic components. [Cu2(1,3-phda)2(dpp)]n (1) possesses dinuclear {Cu2(OCO)4} paddlewheel subunits linked into a 6-connected self-penetrated rob lattice with 48668 topology. {[Cu4(1,4-phda)3(OH)2(dpp)2]·2H2O}n (2) manifests non-cubane tetrameric {Cu4(OH)2}6+ kernels, connected into an 8-connected self-penetrated ilc lattice with 4245.63 topology. Antiferromagnetic coupling within the metal cluster subunits is observed in both 1 and 2.