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Boosting energy storage at moderate fields in Sr₀.₇Bi₀.₂TiO₃ weakly polar relaxor via BiNi2/3Ta1/3O₃-induced ferroelectric-paraelectric composite structure

Yuming Mao, Jingji Zhang, Mo Chen, Min Fang, Ning Yan, Zhihao Lou, Yun Zhou

2025Scripta Materialia5 citationsDOIOpen Access PDF

Abstract

The weakly polar relaxor Sr₀.₇Bi₀.₂TiO₃ is renowned for its exceptional energy efficiency but suffers from low maximum polarization. To overcome this trade-off, we introduce BiNi 2/3 Ta 1/3 O₃ to design a composite structure of coexisting ferroelectric A 4 B 3 O 12 and paraelectric ABO₃ phases. With increasing dopant, the A 4 B 3 O 12 phase is progressively replaced by paraelectric ABO₃ and pyrochlore Bi 2 Ti 2 O 7 , raising the phase-transition temperature. The optimal composition comprises 70.67% P 4/ mbm ABO₃, 28.49% Fmmm A 4 B 3 O 12 , 0.75% Fd 3 m Bi 2 Ti 2 O 7 , and 0.09% Pnna BiTaO 4 , forming polar clusters and a coherent boundary between the ABO₃ and A 4 B 3 O 12 phases. This yields a high energy storage density of 5.12 J cm -3 an ultrahigh efficiency of 97.13% at a high breakdown strength of 460 kV cm -1 , together with a figure of merit of 175.90 J cm -3 and environment-independent stability. These results establish the composite as a highly promising candidate for high-performance dielectric energy-storage devices.

Topics & Concepts

Materials scienceDielectricPolarComposite numberCondensed matter physicsPhase boundaryFigure of meritPyrochloreFerroelectricityPhase (matter)Solid solutionDielectric lossPhase transitionLattice (music)Energy storageMAX phasesRelaxor ferroelectricTernary operationFerroelectric and Piezoelectric MaterialsMultiferroics and related materialsDielectric materials and actuators
Boosting energy storage at moderate fields in Sr₀.₇Bi₀.₂TiO₃ weakly polar relaxor via BiNi2/3Ta1/3O₃-induced ferroelectric-paraelectric composite structure | Litcius