Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction
Recently emerged wearable electronics intended for human–machine interfaces and on-body healthy monitoring present undesired constraints on the human body despite considerable efforts to be flexible and more skin-compliant. In addition, the bulky back-end signal processing circuits hinder the miniat...
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sg-ntu-dr.10356-1704642024-01-17T01:13:53Z Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction He, Qiang Zhou, Zhongliang Chen, Shuai Tang, Cindy G. Leong, Wei Lin School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering In-Ear Sensing Triboelectric Sensor Organic Electrochemical Transistor Physiological Monitoring Human–Machine Interaction Wearable Electronics Recently emerged wearable electronics intended for human–machine interfaces and on-body healthy monitoring present undesired constraints on the human body despite considerable efforts to be flexible and more skin-compliant. In addition, the bulky back-end signal processing circuits hinder the miniaturization integration and commercialization of these wearable devices. Here, we propose a mechanoreceptor-inspired ear-worn triboelectric sensor which realizes unconstrained facial expression monitoring, such as eye and mouth motion, as well as demonstrating a hands-free typing system based solely on eye movements. The integration of an organic electrochemical transistor with low power consumption and high output current can amplify the current signal of the triboelectric sensor by at least 3 orders, enabling accurate extraction of minute pressure changes stimulated by pulse wave in the ear canal. In addition, the signal retention capability endowed by the organic electrochemical transistor enables an expanded control mode, which is demonstrated in an eye-triggered music playback control system. Our work presents the immense potential of ear-worn triboelectric sensor for unencumbered health monitoring and seamless human–machine interaction. Agency for Science, Technology and Research (A*STAR) Submitted/Accepted version We would like to acknowledge funding support from the Delta-NTU Corporate Lab through the A*STAR IAF-ICP (No. I2201E0013) and Delta Electronics Inc. 2023-09-19T02:09:07Z 2023-09-19T02:09:07Z 2023 Journal Article He, Q., Zhou, Z., Chen, S., Tang, C. G. & Leong, W. L. (2023). Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction. Nano Energy, 117, 108900-. https://dx.doi.org/10.1016/j.nanoen.2023.108900 2211-2855 https://hdl.handle.net/10356/170464 10.1016/j.nanoen.2023.108900 117 108900 en IAF-ICP (No. I2201E0013) Nano Energy 10.21979/N9/BGURSG © 2023 Elsevier Ltd. All rights reserved. This paper was published in Nano Energy and is made available with permission of Elsevier Ltd. application/pdf |
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Engineering::Electrical and electronic engineering In-Ear Sensing Triboelectric Sensor Organic Electrochemical Transistor Physiological Monitoring Human–Machine Interaction Wearable Electronics |
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Engineering::Electrical and electronic engineering In-Ear Sensing Triboelectric Sensor Organic Electrochemical Transistor Physiological Monitoring Human–Machine Interaction Wearable Electronics He, Qiang Zhou, Zhongliang Chen, Shuai Tang, Cindy G. Leong, Wei Lin Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction |
| description |
Recently emerged wearable electronics intended for human–machine interfaces and on-body healthy monitoring present undesired constraints on the human body despite considerable efforts to be flexible and more skin-compliant. In addition, the bulky back-end signal processing circuits hinder the miniaturization integration and commercialization of these wearable devices. Here, we propose a mechanoreceptor-inspired ear-worn triboelectric sensor which realizes unconstrained facial expression monitoring, such as eye and mouth motion, as well as demonstrating a hands-free typing system based solely on eye movements. The integration of an organic electrochemical transistor with low power consumption and high output current can amplify the current signal of the triboelectric sensor by at least 3 orders, enabling accurate extraction of minute pressure changes stimulated by pulse wave in the ear canal. In addition, the signal retention capability endowed by the organic electrochemical transistor enables an expanded control mode, which is demonstrated in an eye-triggered music playback control system. Our work presents the immense potential of ear-worn triboelectric sensor for unencumbered health monitoring and seamless human–machine interaction. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering He, Qiang Zhou, Zhongliang Chen, Shuai Tang, Cindy G. Leong, Wei Lin |
| format |
Article |
| author |
He, Qiang Zhou, Zhongliang Chen, Shuai Tang, Cindy G. Leong, Wei Lin |
| author_sort |
He, Qiang |
| title |
Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction |
| title_short |
Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction |
| title_full |
Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction |
| title_fullStr |
Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction |
| title_full_unstemmed |
Mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction |
| title_sort |
mechanoreceptor-inspired in-ear triboelectric sensor for unconstrained physiological monitoring and human–machine interaction |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170464 |
| _version_ |
1789483086879129600 |