Home /Research /Bioinspired Engineering of Fillable Gradient Structure into Flexible Capacitive Pressure Sensor Toward Ultra‐High Sensitivity and Wide Working Range
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Bioinspired Engineering of Fillable Gradient Structure into Flexible Capacitive Pressure Sensor Toward Ultra‐High Sensitivity and Wide Working Range

Weiqiang Hong, Xiaohui Guo, Tianxu Zhang, Yiyang Liu, Zihao Yan, Anqi Zhang, Zhibin Qian, Junyi Wang, Xinyi Zhang, Chengchao Jin, Jingji Zhao, Tiancheng Liu, Qi Hong, Yaohua Xu, Yun Xia, Yunong Zhao

Year
2023
Citations
21

Abstract

Abstract Tactile sensing is required for electronic skin and intelligent robots to function properly. However, the dielectric layer's poor structural compressibility in conventional pressure sensors results in a limited pressure sensing range and low sensitivity. To solve this issue, a flexible pressure sensor with a crocodile‐inspired fillable gradient structure is provided. The fillable gradient structure and grooves in the pressure sensor accommodate the deformed microstructure that permits the enhancement of the media layer compressibility via COMSOL finite element simulation and optimization. The pressure sensor exhibits a high sensitivity of up to 0.97 k Pa −1 (0–4 kPa), a wide pressure detection range (7 Pa–380 kPa), and outstanding repeatability. The sensor can detect Morse code, robotic grabbing, and human motion monitoring. As a result, flexible sensors with a bionic fillable gradient structure pave the way for wearable devices and offer a novel method for achieving highly precise tactile perception.

Keywords

Pressure sensorSensitivity (control systems)Capacitive sensingMaterials scienceAcousticsCompressibilityOptoelectronicsComputer scienceMechanical engineeringElectronic engineering

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