材料科学
电致伸缩
压电
压电响应力显微镜
压电系数
相变
自然键轨道
陶瓷
机电耦合系数
极化(电化学)
铁电性
凝聚态物理
复合材料
光电子学
电介质
物理化学
密度泛函理论
化学
物理
计算化学
作者
Ke Wang,Fang‐Zhou Yao,Wook Jo,Danka Gobeljic,Vladimir V. Shvartsman,Doru C. Lupascu,Jing‐Feng Li,Jürgen Rödel
标识
DOI:10.1002/adfm.201203754
摘要
Abstract The development of lead‐free piezoceramics has attracted great interest because of growing environmental concerns. A polymorphic phase transition (PPT) has been utilized in the past to tailor piezoelectric properties in lead‐free (K,Na)NbO 3 (KNN)‐based materials accepting the drawback of large temperature sensitivity. Here a material concept is reported, which yields an average piezoelectric coefficient d 33 of about 300 pC/N and a high level of unipolar strain up to 0.16% at room temperature. Most intriguingly, field‐induced strain varies less than 10% from room temperature to 175 °C. The temperature insensitivity of field‐induced strain is rationalized using an electrostrictive coupling to polarization amplitude while the temperature‐dependent piezoelectric coefficient is discussed using localized piezoresponse probed by piezoforce microscopy. This discovery opens a new development window for temperature‐insensitive piezoelectric actuators despite the presence of a polymorphic phase transition around room temperature.
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