The Relation of Local Order to Material Properties in Relaxor Ferroelectrics

Overview

Journal Nat Mater

Date 2018 Jun 27

PMID 29941922

Citations 14

Authors

M J Krogstad

P M Gehring

S Rosenkranz

R Osborn

F Ye

Y Liu

J P C Ruff

W Chen

J M Wozniak

H Luo

O Chmaissem

Z-G Ye

D Phelan

Affiliations

Soon will be listed here.

Abstract

Correlating electromechanical and dielectric properties with nanometre-scale order is the defining challenge for the development of piezoelectric oxides. Current lead (Pb)-based relaxor ferroelectrics can serve as model systems with which to unravel these correlations, but the nature of the local order and its relation to material properties remains controversial. Here we employ recent advances in diffuse scattering instrumentation to investigate crystals that span the phase diagram of PbMgNbO-xPbTiO (PMN-xPT) and identify four forms of local order. From the compositional dependence, we resolve the coupling of each form to the dielectric and electromechanical properties observed. We show that relaxor behaviour does not correlate simply with ferroic diffuse scattering; instead, it results from a competition between local antiferroelectric correlations, seeded by chemical short-range order, and local ferroic order. The ferroic diffuse scattering is strongest where piezoelectricity is maximal and displays previously unrecognized modulations caused by anion displacements. Our observations provide new guidelines for evaluating displacive models and hence the piezoelectric properties of environmentally friendly next-generation materials.

Citing Articles

Phase transformation in lead titanate based relaxor ferroelectrics with ultra-high strain.

Zhang H, Li Z, Wang Y, Fortes A, Saunders T, Hao Y Nat Commun. 2025; 16(1):1720.

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Resolving the dynamic correlated disorder in KTaNbO.

He X, Gupta M, Abernathy D, Granroth G, Ye F, Winn B Proc Natl Acad Sci U S A. 2025; 122(7):e2419159122.

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Origins of the large piezoelectric response of samarium-doped lead magnesium niobate-lead titanate ceramics.

Arzensek M, Tos U, Drnovsek S, Dragomir M, Ursic H, Otonicar M Sci Adv. 2024; 10(26):eadp0895.

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Phase Transitions and Dynamics in Mixed Three- and Low-Dimensional Lead Halide Perovskites.

Simenas M, Gagor A, Banys J, Maczka M Chem Rev. 2024; 124(5):2281-2326.

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Critical Insight into Pretransitional Behavior and Dielectric Tunability of Relaxor Ceramics.

Rzoska S, Drozd-Rzoska A, Bulejak W, Los J, Starzonek S, Szafran M Materials (Basel). 2023; 16(24).

PMID: 38138776 PMC: 10744929. DOI: 10.3390/ma16247634.