npj Flexible Electronics (Apr 2024)

Kirigami-inspired, three-dimensional piezoelectric pressure sensors assembled by compressive buckling

  • Yi Zhang,
  • Changbo Liu,
  • Ben Jia,
  • Dongqin Ma,
  • Xuecheng Tian,
  • Yuanyuan Cui,
  • Yuan Deng

DOI
https://doi.org/10.1038/s41528-024-00310-6
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 11

Abstract

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Abstract Piezoelectric sensors whose sensing performances can be flexibly regulated hold significant promise for efficient signal-acquisition applications in the healthcare field. The existing methods for regulating the properties of polyvinylidene fluoride (PVDF) films mainly include material modification and structural design. Compared to material modification, which has a long test period and an unstable preparation process, structural design is a more efficient method. The irigami structure combined with compressive buckling can endow the flexible film with rich macrostructural features. Here, a method is fabricated to modulate the sensing performance by employing distinct 3D structures and encapsulation materials with varying Young’s moduli. The relationship among the aspect ratio (α), pattern factor (η), elastic modulus of encapsulation materials, and equivalent stiffness is obtained by finite element simulation, which provides theoretical guidance for the design of the 2D precursor and the selection of encapsulation materials. In the demonstration applications, the sensor accurately captures pulse waveforms in multiple parts of the human body and is employed for the pressure monitoring of different parts of the sole under various posture states. This method of structure design is efficient, and the preparation process is convenient, providing a strategy for the performance control of piezoelectric pressure sensors.