A novel triboelectric-optical hybrid tactile sensor for human-machine tactile interaction

Tactile interaction is one of the primary modes of human-machine interaction, which requires artificial devices to possess tactile sensing abilities. In recent years, to enrich the tactile information perceived by artificial devices, tactile sensors based on hybrid sensing mechanisms have attracted...

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Bibliographic Details
Published in:Nano energy 2024-06, Vol.125, p.109592, Article 109592
Main Authors: Yang, Hui, Bu, Tianzhao, Liu, Wenbo, Liu, Jiaqi, Ling, Yunzhi, Wu, Meixia, Liu, Weirui, Wang, Changan, Gao, Xifeng, Wang, Lihui
Format: Article
Language:English
Subjects:
Contact force
Liquid lens
Tactile interaction
Tactile sensor
Triboelectric nanogenerator
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Summary:Tactile interaction is one of the primary modes of human-machine interaction, which requires artificial devices to possess tactile sensing abilities. In recent years, to enrich the tactile information perceived by artificial devices, tactile sensors based on hybrid sensing mechanisms have attracted extensive attention. However, for wearable or flexible artificial devices, the development of tactile sensors with a simple structure and preparation process, low cost and power consumption, and good maintainability and integration remains a tough challenge. Herein, we presented a triboelectric-optical hybrid tactile sensor (TOHTS) with a separable modular structure, comprising two units: a triboelectric unit designed based on the single-electrode triboelectric nanogenerator to receive external tactile stimuli, and a photoelectric unit with a liquid-membrane liquid lens structure and a function of translating the tactile stimuli into a photoelectric signal. Both units exhibit a simple structure, and their parts can be easily cannibalized and replaced. The triboelectric unit can control the on-off behavior of the light source embedded in the photoelectric unit to minimize power consumption and improve tactile response speed, according to its output signal. The photoelectric unit possesses superior electromagnetic interference immunity, making the TOHTS accurately and quantitatively perceive contact force. The sensing performance test results validate the TOHTS’s advantages of a short response time (about 9 ms), strong linearity (R2≈0.9952) in sensing contact force, and excellent durability and stability. Due to the above features, the TOHTS exhibits outstanding practicability in tactile interactive tasks, which is proved by some interactive input experiments, and it will have extensive application prospects for human-machine interactive devices. [Display omitted] •Develop a triboelectric-optical hybrid tactile sensor (TOHTS) for human-machine tactile interactive tasks.•The TOHTS with a separable modular structure, possesses low fabrication, employment, and maintenance costs.•Employ STENG as a switch for the light source of the TOHTS, to reduce power consumption and improve response speed.•Utilize the liquid lens principle to sense contact force, to realize accurate and quantitative measurement.•Demonstrate superior practicability of the TOHTS in human-machine tactile interactive tasks.
ISSN:2211-2855
DOI:10.1016/j.nanoen.2024.109592