Ferroelectric and antiferroelectric distortions coupling of nitride perovskite LaWN3 under epitaxial strain using first-principles calculations

LaWN3, a novel nitride perovskite, have been synthesized and its piezoelectric properties have been investigated (Talley K. R. et al., Science, 374 (2021) 1488). However, the understanding of its ferroelectric properties under the external strain is still lacking. Here, the misfit-strain–dependent c...

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Bibliographic Details
Published in:Europhysics letters 2022-12, Vol.140 (5), p.56001
Main Authors: Wang, Xiangjian, Zhu, Linguang, Geng, Wenping, Lou, Xiaojie
Format: Article
Language:English
Subjects:
Antiferroelectricity
Applied Physics
Compressive properties
Ferroelectric materials
First principles
Functional materials
Nitrides
Perovskites
Piezoelectricity
Tillämpad fysik
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Summary:LaWN3, a novel nitride perovskite, have been synthesized and its piezoelectric properties have been investigated (Talley K. R. et al., Science, 374 (2021) 1488). However, the understanding of its ferroelectric properties under the external strain is still lacking. Here, the misfit-strain–dependent coupling between antiferrodistortions (AFD) and ferroelectric (FE) distortions has been studied by using a first-principle approach. It can be observed that AFD and FE distortions can work cooperatively with each other as the compressive strain increases, and the coupling energy between them is found to work in different ways under various strains. Our results show that the coupling tends to stabilize the ground structure when the compressive strain is smaller than −1.9%, it works oppositely when the compressive strain becomes larger than 1.9%. Our results can provide us with more hints about the influence of the epitaxial strains on the intrinsic coupling behavior in the perovskite ferroelectric compounds, which is very important for us to design and fabricate new kinds of functional materials.
ISSN:0295-5075
1286-4854
1286-4854
DOI:10.1209/0295-5075/aca42c