Metal complexes of α-hydroxyiminophosphonic acid derivatives. Preparation and crystal structures of calcium and cadmium complexes of methyl (E)-α-hydroxyiminobenzylphosphonate
Abstract
Both Ca2+ and Cd2+ react with methyl (E)-α-hydroxyiminobenzylphosphonate in aqueous solution to yield insoluble polymeric species which have been characterized by single-crystal X-ray diffraction studies. The two isomorphic compounds crystallize in the monoclinic system in the space group P21/c. Unit-cell parameters: Ca2+, a= 13.169(1), b= 8.623(1), c= 19.161 (2)Å, β= 90.93(1)°, Z= 4; Cd2+, a= 13.010(1), b= 8.666(1), c= 18.906(2)Å, β= 91.84(1)°, Z= 4. The metal ions are seven-co-ordinate with a distorted pentagonal bipyramidal geometry generated by two bidentate, two unidentate phosphonate ligands, and one water molecule. The ligands act simultaneously in a chelating bidentate mode (through the oxyimino nitrogen and the phosphonate oxygen) and in a bridging mode. The bond distances and angles are similar to those observed for the calcium complexes of bisphosphonate drugs.