Journal
ACTA MATERIALIA
Volume 144, Issue -, Pages 411-418Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.actamat.2017.10.056
Keywords
Gd-doped ceria; Electrostriction; Grain boundaries; Impedance spectroscopy
Funding
- NSF-BSF program [2015679]
- NSF [DMR-1701747]
- Israeli Ministry of Science and Technology [3-12944]
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10 mol% Gd-doped ceria (10GDC) ceramics, with grain size in the single micron range, display electrostrictive behavior under ambient conditions of temperature and pressure. In weak, quasi-static electric fields, i.e. <1 kV/cm, frequency <1 Hz, the longitudinal strain is measured to be proportional to the square of the applied electric field, albeit with the corresponding electrostrictive strain coefficient (M-33) displaying large variability between samples: -(2-20).10(-17) (m/V)(2). Nevertheless, vertical bar M-33 vertical bar of all samples exceeds the values expected on the basis of the classical (Newnham) electrostriction scaling law by up to two orders of magnitude. A systematic study reveals the functional dependence of M-33 on frequency: above 10 Hz, vertical bar M-33 vertical bar decreases to approximate to 10(-18) (m/V)(2), which may be characterized as non-Debye relaxation with non-ideality factor 0.35-1.13. For frequencies <= 1.5 Hz, increasing the field strength beyond 1 kV/cm results in an exponential decrease in vertical bar M-33 vertical bar: the longitudinal strain saturates at 1-4 ppm. Dielectric impedance spectra suggest that partitioning of the applied voltage between grain boundaries and grain cores may be a factor contributing both to the large variability in the electrostriction parameters, and to the strong dependence on electric field amplitude. The frequency dependence may have two sources: the slow electric field-driven reorganization of the Ce-containing active complexes in the electrostrictive medium as well as the influence of the grain boundaries. 10GDC ceramics may therefore be added to the list of non-classical electrostrictors which includes reduced and Gd-doped ceria thin films and (Nb,Y)-doped bismuth oxide ceramics. (C) 2017 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
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