Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1333272 | Journal of Solid State Chemistry | 2007 | 5 Pages |
The compound cesium niobate, Cs2Nb4O11, is an antiferroelectric, as demonstrated by double hysteresis loops in the electric field versus polarization plot. The crystal structure refinement by X-ray diffraction at both 100 and 297 K shows it to have a centrosymmetric structure in point group mmm and orthorhombic space group Pnna, which is consistent with its antiferroelectric behavior. The 100-K structure data is reported herein. The lattice is comprised of niobium-centered tetrahedra and octahedra connected through shared vertices and edges; cesium atoms occupy channels afforded by the three-dimensional polyhedral network. Antiferroelectricity is produced by antiparallel displacements of niobium atoms along the c-axis at the phase transition temperature of 165 °C. The critical field for onset of ferroelectric behavior in a single-crystal sample is 9.5 kV/cm at room temperature.
Graphical abstractThe crystal structure of Cs2Nb4O11 is in the nonpolar point group mmm and centrosymmetric space group Pnna. This symmetry is consistent with antiferroelectric character, which the material exhibits, as shown by double hysteresis loops in the polarization versus electric-field plot.Figure optionsDownload full-size imageDownload as PowerPoint slide