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Multidimensional Force Sensors Based on Triboelectric Nanogenerators for Electronic Skin

Zhenyi Wang, Tianzhao Bu, Yang Yang Li, Danyang Wei, Bo Tao, Zhouping Yin, Chi Zhang, Hao Wu

发表年份
2021
引用次数
64

摘要

The ability to detect multidimensional forces is highly desired for electronic skin (E-skin) sensors. Here, based on single-electrode-mode triboelectric nanogenerators (S-TENGs), fully elastic E-skin that can simultaneously sense normal pressure and shear force has been proposed. With the hemispherical curve-structure design and further structural optimization, the pressure sensor exhibits a high linearity and sensitivity of 144.8 mV/kPa in the low-pressure region. By partitioning the lower tribolayer into two symmetric parts, a multidimensional force sensor has been fabricated in which the output voltage sum and ratio of the two S-TENGs can be used for normal pressure and shear force sensing, respectively. When the multidimensional force sensors are mounted at a two-fingered robotic manipulator, the change of the grabbing state can be recognized, indicating that the sensor may have great application potential in tactile sensing for robotic manipulation, human-robot interactions, environmental awareness, and object recognition.

关键词

Triboelectric effectTactile sensorMaterials sciencePressure sensorElectronic skinLinearityAcousticsShear forceVoltageSense (electronics)

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