Spontaneous and rapid electro-actuated snapping of constrained polyelectrolyte hydrogels
TLDR
In this paper , the authors report a bistable domal hydrogel structure capable of spontaneous and reversible snapping under an electric field, where the electric field does not drive the gel directly.Abstract:
Venus flytrap and bladderwort, capable of rapid predation through a snapping transition, have inspired various designs of soft actuators and robots with fast actions. These designs, in contrast to their natural counterparts, often require a direct force or pressurization. Here, we report a bistable domal hydrogel structure capable of spontaneous and reversible snapping under an electric field. Unlike a mechanical force, the electric field does not drive the gel directly. Instead, it redistributes mobile ions that direct the migration of water molecules and bends the polyelectrolyte hydrogel. Subject to constraint from surrounding neutral gel, the elastic energy accumulates until suddenly released by snapping, just like the process in natural organisms. Several proof-of-concept examples, including an optical switch, a speedy catcher, and a pulse pump, are designed to demonstrate the versatile functionalities of this unit capable of articulate motion. This work should bring opportunities to devise soft robotics, biomedical devices, etc.read more
Citations
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Programmable Morphing Hydrogels for Soft Actuators and Robots: From Structure Designs to Active Functions.
TL;DR: In this paper , the fundamental principles for controllable deformations and motions of hydrogels, with a focus on the structure designs and responsive functions of corresponding soft actuators and robots.
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Strong Tough Conductive Hydrogels via the Synergy of Ion‐Induced Cross‐Linking and Salting‐Out
TL;DR: In this paper , the authors report the extreme toughening of hydrogels via the synergistic effect of cations and anions, without the need for specific structure design or adding other reinforcements.
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Magneto‐Orientation of Magnetic Double Stacks for Patterned Anisotropic Hydrogels with Multiple Responses and Modulable Motions
Chen Fei Dai,O.M. Khoruzhenko,Chengqian Zhang,Qing Li Zhu,Dejin Jiao,Miao Du,Josef Breu,Peng Zhao,Qiang Zheng,Zi Liang Wu +9 more
TL;DR: In this paper , a multi-response anisotropic poly(N-isopropylacrylamide) hydrogel was developed by using a rotating magnetic field to align magnetic double stacks (MDSs) that are fixed by polymerization.
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High-performance electrified hydrogel actuators based on wrinkled nanomembrane electrodes for untethered insect-scale soft aquabots
Jongkuk Ko,Changhwan Kim,Dongjin Kim,Yong Wei Song,Seokmin Lee,Bongjun Yeom,June Huh,Seung Ho Han,Daeshik Kang,Je-Sung Koh,Jinhan Cho +10 more
TL;DR: In this paper , a wrinkled nanomembrane electrode-induced actuator was used to generate a reversible and substantial electroosmotic water flow inside a hydrogel film, which drove the controlled swelling of the hydrogels.
Journal ArticleDOI
Touch-Responsive Hydrogel for Biomimetic Flytrap-Like Soft Actuator
TL;DR: In this article , a flytrap-inspired touch-responsive polymeric hydrogel based on supersaturated salt solution, exhibiting multiple responsive behaviors in crystallization, heat releasing, and electric signal under touch stimulation.
References
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