Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction
Empowering soft robots with the ability to perceive will greatly improve human-machine interaction, enabling autonomous robotic systems. However, integrating additional sensing components into soft actuators poses significant challenges, particularly in terms of adhesion and stiffness matching. Here...
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sg-ntu-dr.10356-1733152024-01-24T00:53:22Z Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction Hu, Hongwei Zhang, Shengtao Xu, Jiawei Salim, Teddy Li, Yan Hu, Xinghao Zhang, Zhongqiang Cheng, Guanggui Yuan, Ningyi Lam, Yeng Ming Ding, Jianning School of Materials Science and Engineering Engineering::Materials Soft Robot Thermal Sensing Empowering soft robots with the ability to perceive will greatly improve human-machine interaction, enabling autonomous robotic systems. However, integrating additional sensing components into soft actuators poses significant challenges, particularly in terms of adhesion and stiffness matching. Here, we present a novel dual-functional thermal-sensing actuator (TSA) with conductive polymer ionogel electrodes. This TSA leverages ion diffusion for thermal sensing and electrochemical actuation, all within a single device. One remarkable feature of this TSA is its ability to not only sense temperature through heat conduction upon contact, but also remotely sense thermal radiation, especially from the human body. We further designed a sensing-actuation smart control system and demonstrated robotic hands, bionic butterflies and flytraps that exhibit autonomous and programmable responses when approached by a human hand. This work represents a pioneering effort in integrating thermal sensing and actuation functions within a single device. It not only facilitates proprioceptive actuation but also offers fresh insights for the development of autonomous robots. This work was supported by China Postdoctoral Science Foundation (2022M711372), Postdoctoral Research Program of Jiangsu Province (2021K544C), General Program of Natural Science Foundation for Higher Education in Jiangsu Province (21KJB510004) and Major Program of National Natural Science Foundation of China (NSFC) for Basic Theory and Key Technology of Tri-Co Robots (92248301); G. Cheng acknowledges the support from young & middle-aged academic leaders of Jiangsu Blue Project and Jiangsu 333 talent fund. 2024-01-24T00:53:22Z 2024-01-24T00:53:22Z 2024 Journal Article Hu, H., Zhang, S., Xu, J., Salim, T., Li, Y., Hu, X., Zhang, Z., Cheng, G., Yuan, N., Lam, Y. M. & Ding, J. (2024). Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction. Sensors and Actuators B: Chemical, 398, 134756-. https://dx.doi.org/10.1016/j.snb.2023.134756 0925-4005 https://hdl.handle.net/10356/173315 10.1016/j.snb.2023.134756 2-s2.0-85174051929 398 134756 en Sensors and Actuators B: Chemical © 2023 Elsevier B.V. All rights reserved. |
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| topic |
Engineering::Materials Soft Robot Thermal Sensing |
| spellingShingle |
Engineering::Materials Soft Robot Thermal Sensing Hu, Hongwei Zhang, Shengtao Xu, Jiawei Salim, Teddy Li, Yan Hu, Xinghao Zhang, Zhongqiang Cheng, Guanggui Yuan, Ningyi Lam, Yeng Ming Ding, Jianning Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction |
| description |
Empowering soft robots with the ability to perceive will greatly improve human-machine interaction, enabling autonomous robotic systems. However, integrating additional sensing components into soft actuators poses significant challenges, particularly in terms of adhesion and stiffness matching. Here, we present a novel dual-functional thermal-sensing actuator (TSA) with conductive polymer ionogel electrodes. This TSA leverages ion diffusion for thermal sensing and electrochemical actuation, all within a single device. One remarkable feature of this TSA is its ability to not only sense temperature through heat conduction upon contact, but also remotely sense thermal radiation, especially from the human body. We further designed a sensing-actuation smart control system and demonstrated robotic hands, bionic butterflies and flytraps that exhibit autonomous and programmable responses when approached by a human hand. This work represents a pioneering effort in integrating thermal sensing and actuation functions within a single device. It not only facilitates proprioceptive actuation but also offers fresh insights for the development of autonomous robots. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Hu, Hongwei Zhang, Shengtao Xu, Jiawei Salim, Teddy Li, Yan Hu, Xinghao Zhang, Zhongqiang Cheng, Guanggui Yuan, Ningyi Lam, Yeng Ming Ding, Jianning |
| format |
Article |
| author |
Hu, Hongwei Zhang, Shengtao Xu, Jiawei Salim, Teddy Li, Yan Hu, Xinghao Zhang, Zhongqiang Cheng, Guanggui Yuan, Ningyi Lam, Yeng Ming Ding, Jianning |
| author_sort |
Hu, Hongwei |
| title |
Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction |
| title_short |
Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction |
| title_full |
Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction |
| title_fullStr |
Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction |
| title_full_unstemmed |
Thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction |
| title_sort |
thermal-sensing actuator based on conductive polymer ionogel for autonomous human-machine interaction |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173315 |
| _version_ |
1789482998575398912 |