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Ferroelectric and Piezoelectric Properties of BiFeO<sub>3</sub>‐Based Piezoelectric Ceramics

Muhammad Habib, Myang Hwan Lee, Da Jeong Kim, Hai In Choi, Myong‐Ho Kim, Won‐Jeong Kim, Tae Kwon Song

2020physica status solidi (a)30 citationsDOI

Abstract

Bismuth ferrite‐based bulk ceramics (1– x )Bi 0.97 Sm 0.08 FeO 3 – x BaTiO 3 (BSF– x BT with x = 0.00 FC, x = 0.00 WQ, x = 0.01 WQ, x = 0.03 WQ, and x = 0.05 WQ, where FC is the furnace cooled and WQ is the water quenched) are synthesized by a conventional solid‐state reaction method followed by WQ process. The WQ procedure (compared with FC) dramatically improves the remnant polarization ( P r ) of x = 0.00 ceramic from 11 to 21 μC cm −2 . BT incorporation gradually reduces the coercive field ( E c ) and P r significantly enhances to 28.5 μC cm −2 (at x = 0.03) with fully saturated P – E hysteresis loops. The temperature‐dependent ferroelectric properties reveal that the corresponding P r values improve with the rising temperature; this behavior may be related to the thermally activated domain walls motion. Symmetric and closed electromechanical strain–electric field ( S–E ) curves are obtained with a maximum strain of S max = 0.05% for an optimum composition together with high charge sensor constant ( d 33 = 56 pC N −1 ). The structural and electrical properties of the investigated ceramics are presented in detail.

Topics & Concepts

CeramicCoercivityFerroelectricityMaterials sciencePiezoelectricityBismuth ferritePolarization (electrochemistry)HysteresisFerroelectric ceramicsMineralogyAnalytical Chemistry (journal)Condensed matter physicsComposite materialNuclear magnetic resonanceDielectricPhysicsChemistryOptoelectronicsPhysical chemistryMultiferroicsChromatographyMultiferroics and related materialsFerroelectric and Piezoelectric MaterialsDielectric properties of ceramics
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