Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation
Although recent years have seen considerable interest in stimuli-responsive hydrogels, their strict preparation conditions and narrow applicability limit their use as diverse sensors and soft robots. Herein, a versatile Agar-Zwirrions hybrid hydrogel actuator (Agar/PSBMA) integrated with simultaneou...
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sg-ntu-dr.10356-1762482024-05-14T05:33:34Z Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation Yang, Jueying Huang, Weiting Peng, Kelin Cheng, Zhekun Lin, Lizhi Yuan, Jingjing Sun, Yi Cho, Nam-Joon Chen, Yu School of Materials Science and Engineering Engineering Adhesion Hybrid double-network hydrogels Although recent years have seen considerable interest in stimuli-responsive hydrogels, their strict preparation conditions and narrow applicability limit their use as diverse sensors and soft robots. Herein, a versatile Agar-Zwirrions hybrid hydrogel actuator (Agar/PSBMA) integrated with simultaneous temperature self-sensing and wide-range electrical response is developed. To prepare the Agar/PSBMA hydrogel, a simple and controllable preforming post-enhancing and mechanical pressing method is used by introducing zwitterions materials into a temperature-sensitive Agar matrix. Owing to the design, the compact multiplex complementary structure generated by this method and the materials can facilitate the improvement of flexibility, stretchability, and toughness while providing mechanical dissipation and adhesion properties. Importantly, the visible detected temperature self-sensing ability during 10–40 °C, and quick and wide-range bending responses of both high-voltage and low-voltage electric fields make it unique over other actuators. Furthermore, the electrical response behavior of the hydrogel is found to be impacted by mechanical characteristics and charge polarization based on the finite element Abaqus simulations analysis. The prepared versatile hydrogels show the potential for applications as soft robotics and controlled transportation of adhered substances while simultaneously monitoring their working temperature, which expands the response range of hydrogel actuators and broadens the scope of application. Ministry of Education (MOE) This work was supportedby the Beijing Natural Science Foundation (grant no. L222036), SpecialKey Projects (grant no. 2022-JCJQ-ZD-224-12), and the Chinese Scholar-ship Council under grant no. 202206030117 and 202206030077. N.-J.C.gratefully acknowledged funding support from the Ministry of Educationin Singapore under grant no. MOE-MOET32022-0002. 2024-05-14T05:33:34Z 2024-05-14T05:33:34Z 2024 Journal Article Yang, J., Huang, W., Peng, K., Cheng, Z., Lin, L., Yuan, J., Sun, Y., Cho, N. & Chen, Y. (2024). Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation. Advanced Functional Materials, 34(19), 2313725-. https://dx.doi.org/10.1002/adfm.202313725 1616-301X https://hdl.handle.net/10356/176248 10.1002/adfm.202313725 2-s2.0-85181755138 19 34 2313725 en MOE-MOET32022-0002 Advanced Functional Materials © 2024 Wiley-VCH GmbH. All rights reserved. |
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Engineering Adhesion Hybrid double-network hydrogels |
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Engineering Adhesion Hybrid double-network hydrogels Yang, Jueying Huang, Weiting Peng, Kelin Cheng, Zhekun Lin, Lizhi Yuan, Jingjing Sun, Yi Cho, Nam-Joon Chen, Yu Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation |
| description |
Although recent years have seen considerable interest in stimuli-responsive hydrogels, their strict preparation conditions and narrow applicability limit their use as diverse sensors and soft robots. Herein, a versatile Agar-Zwirrions hybrid hydrogel actuator (Agar/PSBMA) integrated with simultaneous temperature self-sensing and wide-range electrical response is developed. To prepare the Agar/PSBMA hydrogel, a simple and controllable preforming post-enhancing and mechanical pressing method is used by introducing zwitterions materials into a temperature-sensitive Agar matrix. Owing to the design, the compact multiplex complementary structure generated by this method and the materials can facilitate the improvement of flexibility, stretchability, and toughness while providing mechanical dissipation and adhesion properties. Importantly, the visible detected temperature self-sensing ability during 10–40 °C, and quick and wide-range bending responses of both high-voltage and low-voltage electric fields make it unique over other actuators. Furthermore, the electrical response behavior of the hydrogel is found to be impacted by mechanical characteristics and charge polarization based on the finite element Abaqus simulations analysis. The prepared versatile hydrogels show the potential for applications as soft robotics and controlled transportation of adhered substances while simultaneously monitoring their working temperature, which expands the response range of hydrogel actuators and broadens the scope of application. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Yang, Jueying Huang, Weiting Peng, Kelin Cheng, Zhekun Lin, Lizhi Yuan, Jingjing Sun, Yi Cho, Nam-Joon Chen, Yu |
| format |
Article |
| author |
Yang, Jueying Huang, Weiting Peng, Kelin Cheng, Zhekun Lin, Lizhi Yuan, Jingjing Sun, Yi Cho, Nam-Joon Chen, Yu |
| author_sort |
Yang, Jueying |
| title |
Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation |
| title_short |
Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation |
| title_full |
Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation |
| title_fullStr |
Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation |
| title_full_unstemmed |
Versatile Agar-Zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation |
| title_sort |
versatile agar-zwitterion hybrid hydrogels for temperature self-sensing and electro-responsive actuation |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/176248 |
| _version_ |
1800916124268756992 |