High depolarization temperature and superior piezoelectric performance with complex structural evolution in BiFeO_(3)-PbTiO_(3)-(Sr0.7Bi0.2,0.1)TiO_(3) systems  被引量：1

作　　者：Hongwei Shi Feng Li Xinliang Yang Mingsheng Long Lei Shan Chunchang Wang Jiwei Zhai 

机构地区：[1]Information Materials and Intelligent Sensing Laboratory of Anhui Province,Key Laboratory of Structure and Functional Regulation of Hybrid Materials of Ministry of Education,Institutes of Physical Science and Information Technology,Anhui University,Hefei,230601,China [2]Laboratory of Dielectric Functional Materials,School of Materials Science and Engineering,Anhui University,Hefei,230601,China [3]School of Materials Science&Engineering,Tongji University,4800 Caoan Road,Shanghai,201804,China

出　　处：《Journal of Materiomics》2022年第6期1260-1268,共9页无机材料学学报（英文）

基　　金：supported by National Natural Science Foundation of China(Nos.12104001,12174001 and 51872001);Anhui Provincial Natural Science Foundation(No.2008085QE205);Anhui Provincial highereeducation Natural Science research project(KJ2020A0019);the Open Project Program of State Key Laboratory for Mechanical Behavior of Materials(20212313).

摘　　要：Bismuth ferriteebased ferroelectric ceramics are considered strong competitors in highetemperature piezoelectric applications that benefits from their high depolarization temperature(Td),but problems of large conductivity and low piezoelectric coefficient(d33)should be tackled.BiFeO_(3)ePbTiO_(3)ex(Sr0.7Bi0.2,0.1)TiO_(3)(BFePTexSBT)ternary system are designed in this work that successfully resolves this tough paradox.Rietveld refinements show that this system exhibits multiphase coexistence with complex structural transition among rhombohedral,tetragonal and pseudocubic phase.Interestingly,a high Td~320℃ and d33~236℃/N are synergistically optimized in x=0.20 composition near pseudoephase boundary,which are indicated by multiescale techniques(phase structure,dielectric analysis etc.).What'smore,dual electrostrain peaks appear at separate phase boundaries for x=0.20 and 0.66 compositions with distinct piezo/ferroelectric properties.Rayleigh law and piezoelectric force microscopy analysis clarify that the optimal electrostrain performance for both critical compositions are dominated by intrinsic(x=0.20)and extrinsic(x=0.66)contributions,respectively.This work not only provides a new BFePTexSBT system with a high Td and superior d33 that are promising candidates in highetemperature actuator and sensor applications,but also presents a possibility of multiphaseecoexistence established exotic macroscopic performances.

关 键 词：BiFeO_(3)-based PIEZOELECTRIC Electrostrain Multiphaseecoexistence Domain switching 

分 类 号：TQ17[化学工程—硅酸盐工业]