Giant dynamic electromechanical response via field driven pseudo-ergodicity in nonergodic relaxors

Qi, He; Hu, Tengfei; Deng, Shiqing; Liu, Hui; Fu, Zhengqian; Chen, Jun

Giant dynamic electromechanical response via field driven pseudo-ergodicity in nonergodic relaxors

He Qi, Tengfei Hu, Shiqing Deng, Hui Liu, Zhengqian Fu () and Jun Chen ()
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He Qi: University of Science and Technology Beijing
Tengfei Hu: Chinese Academy of Sciences
Shiqing Deng: University of Science and Technology Beijing
Hui Liu: University of Science and Technology Beijing
Zhengqian Fu: Chinese Academy of Sciences
Jun Chen: University of Science and Technology Beijing

Nature Communications, 2023, vol. 14, issue 1, 1-9

Abstract: Abstract Enhanced electromechanical response can commonly be found during the crossover from normal to relaxor ferroelectric state, making relaxors to be potential candidates for actuators. In this work, (Pb0.917La0.083)(Zr0.65Ti0.35)0.97925O3 ceramic was taken as a case study, which shows a critical nonergodic state with both double-like P-E loop and irreversible relaxor-normal ferroelectric phase after poling at room temperature. The low-hysteresis linear-like S-P2 loop, in-situ synchrotron X-ray diffraction and transmission electron microscope results suggest that the nonpolar relaxor state acts as a bridge during polarization reorientation process, accompanying which lattice strain contributes to 61.8% of the total strain. In other words, the transformation from normal ferroelectric to nonergodic relaxor state could be triggered by electric field through polarization contraction, which could change to be spontaneously with slightly increasing temperature in the nonergodic relaxor zone. Therefore, pseudo-ergodicity in nonergodic relaxors (i.e. reversible nonergodic-normal ferroelectric phase transition) driven by periodic electric field should be the main mechanism for obtaining large electrostrain close to the nonergodic-ergodic relaxor boundary. This work provides new insights into polarization reorientation process in relaxor ferroelectrics, especially phase instability in nonergodic relaxor zone approaching to freezing temperature.

Date: 2023
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DOI: 10.1038/s41467-023-38006-6

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