Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect
Recent advancements in small-scale soft actuators have showcased their ability to respond to various stimuli, making them ideal for biomedical engineering and robotics. Light-responsive actuators constructed from photothermal materials such as carbon-based materials have received great attention for...
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sg-ntu-dr.10356-1806782024-10-25T15:40:55Z Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect Li, Kechen Zhang, Qi Cui, Xiyue Liu, Yiying Liu, Yanting Yang, Yuanyuan School of Electrical and Electronic Engineering Engineering Soft actuator Plasmonic effect Recent advancements in small-scale soft actuators have showcased their ability to respond to various stimuli, making them ideal for biomedical engineering and robotics. Light-responsive actuators constructed from photothermal materials such as carbon-based materials have received great attention for their remote wireless control ability. However, conventional carbon-based actuators typically exhibit uniform responses to different light wavelengths, limiting the complexity of their control. To address this limitation, this study develops light-driven soft actuators utilizing gold nanorods (Au NRs) to enhance selective photo-responsiveness. Au NRs are incorporated given their superior ability to convert light energy into localized heat through localized surface plasmon resonances, with efficiency varying based on their size and the wavelength of incident light. By adjusting the specifications of the Au NRs and the wavelength of the optical field, tunable actuation efficiency can be achieved. Experimental calibration confirms that the actuator exhibits differential performance across various wavelengths, enabling more precise control over its behavior. Demonstrations of application devices highlight the actuator's versatility in flexible robotics, showcasing its potential for advanced applications. This innovation represents a considerable step towards achieving more adaptable and functional soft robotic systems, paving the way for future developments in this area. Published version This work was supported by the Xiamen Science Foundation [Grant No. 3502Z20227018]; Fundamental Research Funds for the Central Universities (Xiamen University: No. 20720240069 and 20720240053); and Xiaomi Young Talents Program. 2024-10-21T00:34:35Z 2024-10-21T00:34:35Z 2024 Journal Article Li, K., Zhang, Q., Cui, X., Liu, Y., Liu, Y. & Yang, Y. (2024). Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect. Chemical Engineering Journal, 498, 155057-. https://dx.doi.org/10.1016/j.cej.2024.155057 1385-8947 https://hdl.handle.net/10356/180678 10.1016/j.cej.2024.155057 2-s2.0-85202020321 498 155057 en Chemical Engineering Journal © 2024 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/bync-nd/4.0/). application/pdf |
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Engineering Soft actuator Plasmonic effect |
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Engineering Soft actuator Plasmonic effect Li, Kechen Zhang, Qi Cui, Xiyue Liu, Yiying Liu, Yanting Yang, Yuanyuan Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect |
| description |
Recent advancements in small-scale soft actuators have showcased their ability to respond to various stimuli, making them ideal for biomedical engineering and robotics. Light-responsive actuators constructed from photothermal materials such as carbon-based materials have received great attention for their remote wireless control ability. However, conventional carbon-based actuators typically exhibit uniform responses to different light wavelengths, limiting the complexity of their control. To address this limitation, this study develops light-driven soft actuators utilizing gold nanorods (Au NRs) to enhance selective photo-responsiveness. Au NRs are incorporated given their superior ability to convert light energy into localized heat through localized surface plasmon resonances, with efficiency varying based on their size and the wavelength of incident light. By adjusting the specifications of the Au NRs and the wavelength of the optical field, tunable actuation efficiency can be achieved. Experimental calibration confirms that the actuator exhibits differential performance across various wavelengths, enabling more precise control over its behavior. Demonstrations of application devices highlight the actuator's versatility in flexible robotics, showcasing its potential for advanced applications. This innovation represents a considerable step towards achieving more adaptable and functional soft robotic systems, paving the way for future developments in this area. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Li, Kechen Zhang, Qi Cui, Xiyue Liu, Yiying Liu, Yanting Yang, Yuanyuan |
| format |
Article |
| author |
Li, Kechen Zhang, Qi Cui, Xiyue Liu, Yiying Liu, Yanting Yang, Yuanyuan |
| author_sort |
Li, Kechen |
| title |
Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect |
| title_short |
Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect |
| title_full |
Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect |
| title_fullStr |
Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect |
| title_full_unstemmed |
Photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect |
| title_sort |
photothermal-driven soft actuator capable of alternative control based on coupled-plasmonic effect |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180678 |
| _version_ |
1814777785823002624 |