Three birds with one stone: Design and synthesis of polyurethane actuator for executing heat, light and humidity triggered deformation

Three birds with one stone: Design and synthesis of polyurethane actuator for executing heat, light and humidity triggered deformation

[Display omitted] In this work, we prepare a novel polyurethane actuator, AzoPU50, using one-step co-polymerization, which can deform its shape under the stimuli of heat, light and humidity, respectively. This is of significance for the design and development of multi-stimuli responsive intelligent...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 457; p. 141290
Main Authors: Yue, Xiaolei, Dong, Chen, Wang, Yucheng, Cui, Zhishuai, Ren, Zhihui, Guan, Zheng-Hui
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2023
Subjects:
Azobenzene
Humidity
Intelligent material
Shape memory polyurethane
Intelligent material
Shape memory polyurethane
Humidity
Azobenzene
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Summary:[Display omitted] In this work, we prepare a novel polyurethane actuator, AzoPU50, using one-step co-polymerization, which can deform its shape under the stimuli of heat, light and humidity, respectively. This is of significance for the design and development of multi-stimuli responsive intelligent materials. •A novel multi-stimuli-triggered actuator has been developed by copolymerization.•The actuator could deform its shape under heat, light and humidity stimuli.•Photomechanical device and humidity-driven biomimetic devices were explored.•A device with synergy of heat, light and humidity stimuli responses was assembled. Intelligent actuation materials are widely utilized as parts of soft robots, smart sensors and other applications, due to their response to external stimuli (such as heat, light, magnetism, humidity, etc.). Yet preparing a single polymer material with multi-stimuli responsive functions remains challenging and less explored. Herein, we have explored a novel multi-stimuli responsive intelligent actuating polyurethane material, AzoPU50, through one-pot co-polymerization of 4,4′-bis (6-hydroxy-hexoxy) azobenzene (BHHAB), polyethylene glycol 400 (PEG400) and 4,4′-methylene bis (phenyl isocyanate) (MDI) at a ratio of 1:1:2. This novel material can respond to three types of stimuli to trigger shape deformation movements. The intrinsic microphase separation structure of polyurethane can afford thermal responsive shape memory performances. Furthermore, the variation in the configuration of azobenzene units endows the polyurethane film with good light-responsive deformation. Most importantly, this polyurethane actuator can also achieve humidity-responsive movements including flipping motion on a wet filter paper, bending deformation driven by the palm and finger, etc. In addition, a biomimetic device that integrated the heat, light and humidity stimuli together to imitate human gestures of praise was successfully assembled. This work provides a new strategy for constructing actuators with triple-functions and will pave a way for further development of multi-stimuli-responsive smart actuating devices and other intelligent materials/systems.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2023.141290