材料科学
压电
钛酸钡
相界
相变
电介质
电致伸缩
陶瓷
纳米技术
相(物质)
工程物理
钙钛矿(结构)
光电子学
化学工程
复合材料
凝聚态物理
化学
工程类
物理
有机化学
作者
Chunlin Zhao,Yanli Huang,Jiagang Wu
出处
期刊:InfoMat
[Wiley]
日期:2020-08-10
卷期号:2 (6): 1163-1190
被引量:223
摘要
Abstract Global environmental concerns on the toxicity of lead‐based piezoelectrics impel the great mass fervor on investigations of lead‐free alternatives. Barium titanate (BaTiO 3 , BT) ceramics, the first discovered perovskite ferroelectrics, were widely employed to fabricate dielectric capacitors from 1950s. Since a piezoelectric breakthrough was achieved via chemical modification, intensive researches have been performed embracing lead‐free BT‐based piezoelectrics and their extensional functionalities. In this review, we encompass the state‐of‐the‐art progress on chemical modification tuning phase structure toward advanced electrical properties in BT‐based ceramics. Generally, modulated regularity of cations substitution on phase transition is summarized and clarified. Then, we highlight the common methodologies of phase structure (phase boundary, relaxor phase, room‐temperature phase transition, etc.) design for optimizing piezoelectricity, electrostrictive strain, electrocaloric, dielectric energy storage or permittivity performances, and cover the noticeable developments and relevant physical mechanisms. Finally, perspectives and challenges on future research issues are featured. This review proposes to exert the significant guidance and service for material design of BT‐based and other lead‐free perovskite materials with superior functionalities. image
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