极化
压电
直流电
交流电
电流(流体)
材料科学
Boosting(机器学习)
铅(地质)
光电子学
电气工程
电压
电介质
计算机科学
铁电性
复合材料
工程类
机器学习
地质学
地貌学
作者
Ming Qiu,Chengpeng Hu,Xuejie Sun,Mingxuan Liu,Song Jin,Qingyang Shan,Zhenyu Xu,Xiangda Meng,Peng Tan,Yu Wang,Hao Tian
摘要
Ferroelectric materials with strong piezoelectric responses are critical for high-performance electromechanical devices. Alternating current poling (ACP) has been shown to effectively enhance the piezoelectric and electromechanical properties of PbTiO3-based relaxor crystals. In this study, we introduce a combined direct current poling (DCP) and ACP strategy to improve the properties of K0.62Na0.38NbO3 single crystals. The DCP + ACP method promotes polarization rotation, resulting in a net macroscopic polarization that exceeds that of crystals processed by conventional DCP alone. Domain characterization reveals that this approach produces a refined domain configuration in which 120° and 60° domains coexist. A peak piezoelectric coefficient (d33) of 330 pC/N is achieved, with a maximum performance improvement of 71.9% over standard DCP. These findings demonstrate a viable route for enhancing piezoelectric performance in lead-free materials through domain engineering.
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