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Atomically engineered interfaces yield extraordinary electrostriction

Authors :
Haiwu Zhang
Nini Pryds
Dae-Sung Park
Nicolas Gauquelin
Simone Santucci
Dennis V. Christensen
Daen Jannis
Dmitry Chezganov
Diana A. Rata
Andrea R. Insinga
Ivano E. Castelli
Johan Verbeeck
Igor Lubomirsky
Paul Muralt
Dragan Damjanovic
Vincenzo Esposito
Source :
Nature, Zhang, H, Pryds, N, Park, D-S, Gauquelin, N, Santucci, S, Christensen, D V, Jannis, D, Chezganov, D, Rata, D A, Insinga, A R, Castelli, I E, Verbeeck, J, Lubomirsky, I, Muralt, P, Damjanovic, D & Esposito, V 2022, ' Atomically engineered interfaces yield extraordinary electrostriction ', Nature, vol. 609, no. 7928, pp. 695-700 . https://doi.org/10.1038/s41586-022-05073-6
Publication Year :
2022

Abstract

Electrostriction is a property of dielectric materials whereby an applied electric field induces a mechanical deformation proportional to the square of that field. The magnitude of the effect is usually minuscule (–19 m2 V–2 for simple oxides). However, symmetry-breaking phenomena at the interfaces can offer an efficient strategy for the design of new properties. Here we report an engineered electrostrictive effect via the epitaxial deposition of alternating layers of Gd2O3-doped CeO2 and Er2O3-stabilized δ-Bi2O3 with atomically controlled interfaces on NdGaO3 substrates. The value of the electrostriction coefficient achieved is 2.38 × 10–14 m2 V–2, exceeding the best known relaxor ferroelectrics by three orders of magnitude. Our theoretical calculations indicate that this greatly enhanced electrostriction arises from coherent strain imparted by interfacial lattice discontinuity. These artificial heterostructures open a new avenue for the design and manipulation of electrostrictive materials and devices for nano/micro actuation and cutting-edge sensors.

Details

ISSN :
14764687 and 00280836
Database :
OpenAIRE
Journal :
Nature
Accession number :
edsair.doi.dedup.....c06d544916701f3b1c00dfa90528523f
Full Text :
https://doi.org/10.1038/s41586-022-05073-6