Development of Thermoinks for 4D Direct Printing of Temperature-Induced Self-Rolling Hydrogel Actuators

Podstawczyk Daria; Niziol Martyna; Szymczyk-Ziolkowska PatrycjaFiedot-Tobola Marta

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Development of Thermoinks for 4D Direct Printing of Temperature-Induced Self-Rolling Hydrogel Actuators

机译：Development of Thermoinks for 4D Direct Printing of Temperature-Induced Self-Rolling Hydrogel Actuators

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4D printing has emerged as an important technique for fabricating 3D objects from programmable materials capable of time-dependent reshaping. In the present investigation, novel 4D thermoinks composed of laponite (LAP), an interpenetrating network of poly(N-isopropylacrylamide) (PNIPAAm), and alginate (ALG) are developed for direct printing of shape-morphing structures. This approach consists of the design and fabrication of 3D honeycomb-patterned hydrogel discs self-rolling into tubular constructs under the stimulus of temperature. The shape morphing behavior of hydrogels is due to shear-induced anisotropy generated via 3D printing. The compositionally tunable hydrogel discs can be programmed to exhibit different actuation behaviors at different temperatures. Upon immersion in 12 degrees C water, singly crosslinked sheets roll up into a tubular construct. When transferred to 42 degrees C water, the tubes first rapidly unfold and then slightly curve up in the opposite direction. Through a dual photocrosslinking of PNIPAAm, it is possible to inverse temperature-dependent shape morphing and induce self-folding at higher and unrolling at lower temperatures. The extensive self-assembling motion is essential to developing thermal actuators with broad applications in, e.g., soft robotics and active implantology, whereas controllable self-rolling of planar hydrogels is of the highest interest to biomedical engineering as it allows for effective fabrication of hollow tubes.

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《Advanced functional materials》 |2021年第15期|2009664.1-2009664.10|共10页
作者
Podstawczyk Daria; Niziol Martyna; Szymczyk-Ziolkowska PatrycjaFiedot-Tobola Marta;
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作者单位

Wroclaw Univ Sci & Technol, Fac Chem, Dept Proc Engn & Technol Polymer & Carbon Mat, Norwida 4-6, PL-50373 Wroclaw, Poland;

Wroclaw Univ Sci & Technol, Fac Mech Engn, Ctr Adv Mfg Technol CAMT FPC, Lukasiewicza 5, PL-50371 Wroclaw, Poland;

Lukasiewicz Res Network PORT Polish Ctr Technol D, Stablowicka 147, PL-54066 Wroclaw, Poland;

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正文语种英语
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4D printing; actuators; hydrogels; self; 8208; assembly; stimuli; responsive materials;

Development of Thermoinks for 4D Direct Printing of Temperature-Induced Self-Rolling Hydrogel Actuators

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