Single-Step Preparation of the Mixed BaII-NbV Oxides from a Heteropolynuclear Oxalate Complex.

A novel oxalate-based complex of the formula {Ba2(H2O)5[NbO(C2O4)HC2O4}·H2O (1) was prepared from an aqueous solution containing the [NbO(C2O4)3]3- and Ba2+ entities in the molar ratio 1:2, and characterized by X-ray single-crystal diffraction, LR spectroscopy, and thermal analysis. The crystal packing of 1 reveals a complex three-dimensional (3D) network: the Nb polyhedron is connected to eight neighboring Ba polyhedra through the oxalate ligands and the oxo-oxygen group, whereas the Ba polyhedra share edges and vertices. The ability of compound 1 to act as a single-source precursor for the formation of bimetallic oxides was investigated by the thermal analysis (TGA and DSC) and X-ray powder diffraction. Thermal processing of 1 resulted in the formation of mixed-metal oxide phases, Ba4Nb2O9 and Ba5Nb4O15. Three stable polymorphs of Ba4+Nb2O9 were isolated: the known, hexagonal α- and orthorhombic β-Ba4Nb2O9, and another one, not previously reported, hexagonal δ-Ba4Nb2O9 polymorph. The new, δ-Ba4Nb2O9 polymorph has the 6H-perovskite structure (space group P63/m), in which the Nb2O98- face-sharing octahedral dimers are interconnected via corners to the regular BaO610- octahedra. Formation of the mixed-metal oxides takes place at different temperatures: the Ba5Nb4O15 oxide occurred at ~700 °C, as the major crystalline oxide phase; by heating the sample up to 1135 °C, the α-Ba4Nb2O9 form was obtained, whereas the heating at 1175 °C caused the crystallization of two polymorphs, β-Ba4Nb2O9 and δ-Ba4Nb2O9. Special focus was set on the electrical properties of the prepared mixed BaII--NbV oxides obtained by this molecular pathway in a single-step preparation. [ABSTRACT FROM AUTHOR]