ON THE IDENTIFICATION OF OXYGEN AND FLUORINE ATOMS IN DISORDERED INORGANIC OXYFLUORIDE COMPOUNDS
N. M. Laptash, A. A. Udovenko
Institute of Chemistry, Far Eastern Branch, Russian Academy of Sciences, Vladivostok, Russia
Keywords: оксофторидные соединения, кристаллическая структура, ориентационный беспорядок, статика и динамика, фазовые переходы, oxyfluoride compounds, crystal structure, orientational disorder, statics and dynamics, phase transitions
Abstract
It is considered practically impossible to differentiate between oxygen and fluorine atoms by X-ray diffraction in disordered structures of oxyfluoride compounds due to the similarity of their ionic radii and diffusion factors. Indeed, many transition metal oxyfluoride compounds containing polar pseudo-octahedral MO x F6- x ( x = 1-3) anions form crystal structures without any fluorine-oxygen (F/O) ordering owing to a large number of local anion configurations. Because of this static disorder, it is impossible to determine the positions of O and F atoms and find the real geometry of the polyhedron. However, this becomes possible in the case of dynamic disorder of oxyfluoride anions when the central atom is displaced from the center of the octahedron toward a vertex, edge, or face (depending on the number of oxygen atoms in the polyhedron), which enables the identification of O and F atoms owing to inherent differences between M-O and M-F bonding. On cooling, such compounds undergo phase transitions of the order-disorder type with substantial changes in the entropy. The examples of static and dynamic orientational disorder in oxyfluoride compounds of d 0 transition metals are given.
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