AIP Advances (Jun 2020)

Absence of piezoelectric enhancement around the morphotropic phase boundaries for Bi1−xNdxFeO3 ceramics

  • P. Z. Chen,
  • Y. Q. Li,
  • X. Li,
  • S. H. Zheng,
  • M. F. Liu,
  • L. Lin,
  • Z. B. Yan,
  • X. P. Jiang,
  • J.-M. Liu

DOI
https://doi.org/10.1063/5.0010568
Journal volume & issue
Vol. 10, no. 6
pp. 065329 – 065329-8

Abstract

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BiFeO3 has been receiving continuous attention for its excellent ferroelectric and multiferroic properties. Nevertheless, the piezoelectricity as a complementary property of ferroelectricity remains less addressed for BiFeO3 at least in a single phase form. In this work, we investigate the piezoelectric behaviors of bulk Bi1−xNdxFeO3 ceramics, given that the Nd-substitution may trigger structural phase transitions from the R3c phase to the Pna21 phase and eventually toward the non-polar Pnma phase. It is revealed that the piezoelectric coefficient d33 does increase with the increasing Nd content x inside the R3c phase region. However, no d33-enhancement across the R3c–Pna21 boundary region and the Pna21–Pnma boundary region is identified, suggesting no positive correlation between the piezoelectric coefficient and the possible morphotropic phase boundaries. The observed d33-enhancement inside the R3c phase region should be attributed to the remarkably reduced domain size and release of pinned domain wall motion by defects.