Zhengran Chen scite author profile

Zhengran Chen

2Publications

10Citation Statements Received

61Citation Statements Given

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Shanghai Institute of Ceramics, Chinese Academy of Sciences, ShanghaiTech University

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Enhancing Electromechanical Properties of PZT-Based Piezoelectric Ceramics by High-Temperature Poling for High-Power Applications

Wang

Chen

Zhou

et al. 2023

ACS Appl. Mater. Interfaces

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Defect engineering is a proven method to tune the properties of perovskite oxides. In demanding high-power piezoelectric ceramic applications, acceptor doping is the most effective method to harden ceramics, but it inevitably degrades the ceramics' electromechanical properties. Herein, a poling method based on acceptor doping, namely, high-temperature poling, is implemented by applying an electric field above the Curie temperature for poling to achieve a balance of the properties of piezoelectric coefficient d 33 and mechanical quality factor Q m . After high-temperature poling, the piezoelectric property of 0.6 mol % Mn-doped Pb 0.92 Sr 0.08 (Zr 0.533 Ti 0.443 Nb 0.024 )O 3 is d 33 = 483 pC/N and Q m = 448. Compared with the traditional poling, the piezoelectric coefficient d 33 of the high-temperature poling ceramics increased by approximately 40%, and Q m also increased by nearly 18%. Therefore, high d 33 and Q m were exhibited by our PZT piezoelectric ceramics. Rayleigh's law analysis, XRD, and transmission electron microscopy analysis show that, after high-temperature poling, the considerably increased d 33 is related to the large increase in the reversible domain wall motion in the intrinsic effect, while the slightly increased Q m is related to the inhibited irreversible domain wall motion in the extrinsic effect. This study reports a method for high-temperature poling and provides insights into the design of high-power piezoelectric ceramics with high d 33 and Q m . KEYWORDS: PZT, high-temperature poling, defect dipoles, high d 33 and high Q m , high-power applications

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High-performance and high-thermally stable PSN-PZT piezoelectric ceramics achieved by high-temperature poling

Chen

Liang

Zhang

et al. 2022

Journal of Materials Science & Technology

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Zhengran Chen

Enhancing Electromechanical Properties of PZT-Based Piezoelectric Ceramics by High-Temperature Poling for High-Power Applications

High-performance and high-thermally stable PSN-PZT piezoelectric ceramics achieved by high-temperature poling

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