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High piezoelectric property with exceptional stability in self-poled ferroelectric films

Author

Listed:
  • Lisha Liu

    (Nanjing)

  • Jiaojiao Yi

    (Jiangsu University of Technology)

  • Kun Xu

    (Stanford University
    Tsinghua University)

  • Zhen Liu

    (Nanjing)

  • Mingmeng Tang

    (Nanjing)

  • Le Dai

    (Nanjing)

  • Xuan Gao

    (Nanjing)

  • Yang Liu

    (Nanjing)

  • Shuhao Wang

    (Nanjing)

  • Zhang Zhang

    (Nanjing)

  • Liang Shu

    (Tsinghua University)

  • Jing-Feng Li

    (Tsinghua University)

  • Shujun Zhang

    (University of Wollongong)

  • Yaojin Wang

    (Nanjing)

Abstract

Ferroelectric films are highly sought-after in micro-electro-mechanical systems, particularly with the trend towards miniaturization. However, their tendency to depolarize and degradation in piezoelectric properties when exposed to packaging procedures at temperatures exceeding 260 °C remains a significant challenge. Here, we reveal the prerequisites for self-poling and leverage these insights to achieve unprecedented macroscopic performance through a two-step approach involving texture construction and hierarchical heterogeneity engineering. The significant [001] texture and fine Zr/Ti heterogeneity, facilitated by a PbO-TiO2 buffer, enable a piezoelectric charge coefficient of 550 pC/N in self-poled Pb(Zr0.52Ti0.48)O3 film. This material demonstrates impressive resilience to elevated temperatures up to 300 °C, experiencing less than a 16% degradation in performance. Our approach can be extended to other ferroelectric systems, offering an innovative solution for high-temperature packaging and harsh environments in practical electro-mechanical applications.

Suggested Citation

  • Lisha Liu & Jiaojiao Yi & Kun Xu & Zhen Liu & Mingmeng Tang & Le Dai & Xuan Gao & Yang Liu & Shuhao Wang & Zhang Zhang & Liang Shu & Jing-Feng Li & Shujun Zhang & Yaojin Wang, 2024. "High piezoelectric property with exceptional stability in self-poled ferroelectric films," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54707-y
    DOI: 10.1038/s41467-024-54707-y
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    References listed on IDEAS

    as
    1. Zhao-Xia Huang & Lan-Wei Li & Yun-Zhi Huang & Wen-Xu Rao & Hao-Wei Jiang & Jin Wang & Huan-Huan Zhang & He-Zhi He & Jin-Ping Qu, 2024. "Self-poled piezoelectric polymer composites via melt-state energy implantation," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    2. Hongjie Hu & Hao Huang & Mohan Li & Xiaoxiang Gao & Lu Yin & Ruixiang Qi & Ray S. Wu & Xiangjun Chen & Yuxiang Ma & Keren Shi & Chenghai Li & Timothy M. Maus & Brady Huang & Chengchangfeng Lu & Muyang, 2023. "A wearable cardiac ultrasound imager," Nature, Nature, vol. 613(7945), pages 667-675, January.
    3. Yang Liu & Haibibu Aziguli & Bing Zhang & Wenhan Xu & Wenchang Lu & J. Bernholc & Qing Wang, 2018. "Ferroelectric polymers exhibiting behaviour reminiscent of a morphotropic phase boundary," Nature, Nature, vol. 562(7725), pages 96-100, October.
    4. Dong Zhao & Thomas Lenz & Gerwin H. Gelinck & Pim Groen & Dragan Damjanovic & Dago M. Leeuw & Ilias Katsouras, 2019. "Depolarization of multidomain ferroelectric materials," Nature Communications, Nature, vol. 10(1), pages 1-11, December.
    5. Chaojie Chen & Shilong Zhao & Caofeng Pan & Yunlong Zi & Fangcheng Wang & Cheng Yang & Zhong Lin Wang, 2022. "A method for quantitatively separating the piezoelectric component from the as-received “Piezoelectric” signal," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
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