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| Home > Publications database > Atomic-scale evidence for displacive disorder in bismuth zinc niobate pyrochlore |
| Journal Article | FZJ-2019-01061 |
; ; ; ;
2018
Elsevier Science
Amsterdam
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Please use a persistent id in citations: doi:10.1016/j.ultramic.2018.05.009
Abstract: Pyrochlores characterized by the chemical formula A2B2O7 form an extended class of materials with interesting physical and chemical properties. The compound Bi1.5ZnNb1.5O7 is prototypical. Its excellent dielectric properties make it attractive, e.g. for capacitors, tunable microwave devices and electric-energy storage equipment. Bi1.5ZnNb1.5O7 shows an intriguing frequency-dispersive dielectric relaxation at 50 K ≤ T ≤ 250 K, which has been studied intensively but is still not fully understood. In this first study on a pyrochlore by atomic-resolution transmission electron microscopy we observe the Bi atoms on A sites since, due to their low nuclear charge, the contribution of Zn atoms to the contrast of these sites is negligible. We find in our and [112] oriented images that the position of the atomic intensity maxima do not coincide with the projected Wyckoff positions of the basic pyrochlore lattice. This supplies atomic-scale evidence for displacive disorder on split A-type sites. The Bi atoms are sessile, only occasionally we observe in time sequences of images jumps between individual split-site positions. The apertaining jump rate of the order of 0.1–1 Hz is by ten orders of magnitude lower than the values derived in the literature from Arrhenius plots of the low-temperature dielectric relaxation data. It is argued that these jumps are radiation induced. Therefore our observations are ruling out a contribution of Bi-atom jumps to low-temperature dielectric A sites-related relaxation. It is suggested that this relaxation is mediated by jumps of Zn atoms.
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