Physics

On the possibility that PbZrO3 not be antiferroelectric

H. Aramberri, C. Cazorla, et al.

This groundbreaking research by Hugo Aramberri, Claudio Cazorla, Massimiliano Stengel, and Jorge Íñiguez unveils a novel ferrielectric structure for lead zirconate (PbZrO₃), challenging the long-held belief that it is an antiferroelectric material. First-principles calculations indicate that this ferrielectric phase could be more stable even at room temperature, prompting a shift in the understanding of this prototypical material.... show more

Abstract

Lead zirconate (PbZrO₃) is considered the prototypical antiferroelectric material with an antipolar ground state. Yet, several experimental and theoretical works hint at a partially polar behaviour in this compound, indicating that the polarization may not be completely compensated. In this work, we propose a simple ferrielectric structure for lead zirconate. First-principles calculations reveal this state to be more stable than the commonly accepted antiferroelectric phase at low temperatures, possibly up to room temperature, suggesting that PbZrO₃ may not be antiferroelectric at ambient conditions. We discuss the implications of our discovery, how it can be reconciled with experimental observations and how the ferrielectric phase could be obtained in practice.

Publisher

npj Computational Materials

Published On

Authors

Hugo Aramberri, Claudio Cazorla, Massimiliano Stengel, Jorge Íñiguez

DOI

https://doi.org/10.1038/s41524-021-00671-w