Thermoplastic polyurethane/graphene oxide composite membrane actuatable by infrared irradiation or humidity change

Thermoplastic polyurethane/graphene oxide composite membrane actuatable by infrared irradiation or humidity change

A single stimulus of the intelligent actuator cannot cope with the complex environment, and the intelligent actuator with the synergistic effect of multiple stimuli will be better applied to the complex environment. Herein, the flexible composite membrane consisting of a graphene oxide (GO) layer an...

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Bibliographic Details
Published in:Materials chemistry and physics Vol. 320; p. 129478
Main Authors: Zhong, Tiantian, Jiang, Zhenlin, Xu, Chenxue, Zhen, Qinchao
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2024
Subjects:
Composite membrane
IR and humidity sensitive actuator
Self-sensing actuator
Synergistic responsiveness
Self-sensing actuator
Synergistic responsiveness
IR and humidity sensitive actuator
Composite membrane
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Summary:A single stimulus of the intelligent actuator cannot cope with the complex environment, and the intelligent actuator with the synergistic effect of multiple stimuli will be better applied to the complex environment. Herein, the flexible composite membrane consisting of a graphene oxide (GO) layer and a thermoplastic polyurethane (TPU) layer has been fabricated through evaporation membrane formation and distributed spin-coating technique. The TPU/GO membrane demonstrates remarkable actuation response to humidity and infrared (IR) light stimuli. The maximum response bending Angle of 60° was reached within 1.06 s under 150 W IR light, and the maximum reverse bending Angle of 108° was reached within 3.8 s under 90 % RH humidity. The actuator also delivers good flexion recovery performance after undergoing 200 cycles of cyclic response tests. At the same time, due to the difference in water absorption or desorption between GO and TPU layers, the GO and TPU layers in the juxtaposition structure show different response rates to infrared light and humidity stimuli, and the actuator can utilize alternate conversion of contraction and expansion. Moreover, the difference in thermal expansion between the GO layer and the TPU layer also prompts the actuator to respond under infrared light. Under the co-stimulation of infrared light and humidity, the controllable and programmable "forward-stagnation-reverse" cooperative driving response behavior is completed. Moreover, owing to the flexibility and maneuverability of the parallel GO/TPU membrane, it is best used in complex environments, which have a vast range of potential applications in biometrics and smart soft robots. The TUP/GO composite membrane was prepared to improve the response performance and realize the collaborative response of light and humidity. [Display omitted] •The TPU/GO composite membrane intelligent actuator was prepared by evaporative film-forming and distributed spin-coating.•The TPU/GO composite membrane exhibits synergistic responsiveness under infrared irradiation and humidity.•Biomimetic flowers and fixtures prepared by TPU/GO membrane can switch and clamp under infrared irradiation and humidity.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2024.129478