Journal
POLYMER
Volume 253, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.polymer.2022.124998
Keywords
Hydrogel; Soft actuator; LCST
Categories
Funding
- National Natural ScienceFoundation of China [51890872, U21A2092]
- Natural Science Foundation of Zhejiang Province [LD19E030001]
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This study reports the development of a novel actuator using bilayer hydrogels, which exhibit two opposite bending behaviors under the same temperature-driven process. The bilayer hydrogel also shows excellent interfacial adhesion, preventing delamination, and has broad prospects for applications.
Shaping-deforming thermoresponsive hydrogel actuators have showed great potential toward comprehensive application in artificial intelligence including soft robots and advanced electronics. Despite research progress in designing hydrogels with complexed molecular and hierarchy structures, integrating feasible manufacturing process and switchable shape transformation remained a challenge. Herein, we reported a straightforward strategy to develop a novel actuator by asymmetric composed bilayer hydrogel. Poly(N-isopropylacrylamide) (PNIPAM) and poly(vinyl alcohol) PVA have been applied to fabricate PNIPAM/(PNIPAM/PVA) bilayer hydrogel in which water shrinkage speed could be tuned by PVA crystallinity. Interpenetration of PVA into PNIPAM network promised a faster water losing speed than PNIPAM while a slowed down water diffusion was observed when PVA crystalized during freezing/thawing cycle. Consequently, the hydrogel exhibits two opposite bending behavior under the same temperature-driven process. In addition, the hydrogen bond interaction between PVA and PNIPAM endows the bilayer hydrogel with excellent interfacial adhesion, which prevents delamination after several freezing/thawing cycles and shrinkage/swelling cycles. Approaches in this study points to a future direction in designing and fabricating intelligent materials for several scenarios including soft robotics and biomedical devices.
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