%0 Journal Article
%A Jiang, Yuqi
%A Zhang, Mao-Hua
%A Wu, Chao-Feng
%A Xu, Ze
%A Li, Zhao
%A Lu, Jing-Tong
%A Huang, Hao-Feng
%A Zhou, Jia-Jun
%A Liu, Yi-Xuan
%A Zhou, Tianhang
%A Gong, Wen
%A Wang, Ke
%T Low-field-driven large strain in lead zirconate titanium-based piezoceramics incorporating relaxor lead magnesium niobate for actuation
%J Nature Communications
%V 15
%N 1
%@ 2041-1723
%C [London]
%I Nature Publishing Group UK
%M PUBDB-2024-08070
%P 9024
%D 2024
%X Studies on the piezoelectric materials capable of efficiently outputting high electrostrains at low electric fields are driven by the demand for precise actuation in a wide range of applications. Large electrostrains of piezoceramics in operation require high driving fields, which limits their practical application due to undesirable nonlinearities and high energy consumption. Herein, a strategy is developed to enhance the electrostrains of piezoceramics while maintaining low hysteresis by incorporating lead magnesium niobate relaxors into lead zirconate titanium at the morphotropic phase boundary. An ultrahigh inverse piezoelectric coefficient of 1380 pm/V with a reduced hysteresis of 11.5
%F PUB:(DE-HGF)16
%9 Journal Article
%$ 39424821
%U <Go to ISI:>//WOS:001339143700013
%R 10.1038/s41467-024-53007-9
%U https://bib-pubdb1.desy.de/record/619987