POLYMERIC MOLECULAR PATTERN IN THE CRYSTALS OF A CALCIUM(II) COMPLEX WITH PYRIDINE-3,4-DICARBOXYLATE AND WATER LIGANDS

Abstract

Crystals of triaquamono (μ-pyridine-3,4-dicarboxylato-O,O′,O,O′)(aqua-O)calcium(II) contain molecular ribbons in which two adjacent calcium ions are bridged via oxygen atoms donated by the carboxylate group attached to carbon atom “3” in the pyridine ring. Both oxygen atoms are bidentate, each being coordinated to two caloium ions. In addition, every second pair of calcium(II) ions is bridged by a water oxygen atom. The coordination polyhedron around the calcium(II) ion is pentagonal bipyramidal; its equatorial plane is composed of two bridging oxygen atoms each belonging to the carboxylate group of the adjacent ligands, the bridging water oxygen atom and two coordinated water molecules. Another coordinated water oxygen atom constitutes the apex of the pyramid on one side of the pentagon, while two bridging carboxylate oxygen atoms donated by the same carboxylate group make two apices on the other side of the pentagon. The pyridine hetero-ring nitrogen atom does not participate in coordination to the central ion. Both oxygen atoms of the carboxylate group attached to the carbon atom in position “4” of the pyridine ring are not directly coordinated to the calcium(II) ion and act only as acceptors in the hydrogen bond system.