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Tunable Photomechanics in Diarylethene-Driven Liquid Crystal Network Actuators.


ABSTRACT: The response of soft actuators made of stimuli-responsive materials can be phenomenologically described by a stimulus-deformation curve, depicting the controllability and sensitivity of the actuator system. Manipulating such stimulus-deformation curve allows fabricating soft microrobots with reconfigurable actuation behavior, which is not easily achievable using conventional materials. Here, we report a light-driven actuator based on a liquid crystal polymer network containing diarylethene (DAE) photoswitches as cross-links, in which the stimulus-deformation curve under visible-light illumination is tuned with UV light. The tuning is brought about by the reversible electrocyclization of the DAE units. Because of the excellent thermal stability of the visible-absorbing closed-form DAEs, the absorbance of the actuator can be optically fixed to a desired value, which in turn dictates the efficiency of photothermally induced deformation. We employ the controllability in devising a logical AND gate with macroscopic output, i.e., an actuator that bends negligibly under UV or visible light irradiation, but with profound shape change when addressed to both simultaneously. The results provide design tools for reconfigurable microrobotics and polymer-based logic gating.

SUBMITTER: Lahikainen M 

PROVIDER: S-EPMC7586294 | biostudies-literature | 2020 Oct

REPOSITORIES: biostudies-literature

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Tunable Photomechanics in Diarylethene-Driven Liquid Crystal Network Actuators.

Lahikainen Markus M   Kuntze Kim K   Zeng Hao H   Helantera Seidi S   Hecht Stefan S   Priimagi Arri A  

ACS applied materials & interfaces 20201008 42


The response of soft actuators made of stimuli-responsive materials can be phenomenologically described by a stimulus-deformation curve, depicting the controllability and sensitivity of the actuator system. Manipulating such stimulus-deformation curve allows fabricating soft microrobots with reconfigurable actuation behavior, which is not easily achievable using conventional materials. Here, we report a light-driven actuator based on a liquid crystal polymer network containing diarylethene (DAE)  ...[more]

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