Shape programming of liquid crystal elastomers by two-stage wavelength-selective photopolymerization
Tom Bruining, Daniela R. Tomé, Danqing Liu

TL;DR
A new method for creating shape-memory liquid crystal elastomers uses light to control crosslinking, enabling better manufacturing of soft materials for robotics and haptics.
Contribution
A two-stage wavelength-selective photopolymerization method for improved processibility of LCEs.
Findings
Thermally responsive LCEs with reversible actuation were produced using a bifunctional acrylate-oxetane crosslinker.
The method allows for lithography-based and 4D-printed actuators with additional shape programming.
Improved processibility compared to base-catalyzed procedures was demonstrated.
Abstract
Reversible shape memory polymers are a topic of great interest in research focusing on materials for soft robotics and haptic technologies. In particular, liquid crystal elastomers (LCEs) programmed by two-stage crosslinking procedures have been increasingly reported in the past decade. These methods often include a base-catalyzed first crosslinking step, which limits the processibility of the material. Here, a two-stage crosslinking procedure based on the orthogonal wavelength-selective photo-initiation of free-radical and cationic ring-opening polymerizations is reported. Using a bifunctional acrylate-oxetane crosslinker, thermally responsive LCEs capable of reversible actuation are produced. The improved processibility of this method compared to base-catalyzed procedures is demonstrated through lithography-based production of actuators, as well as 4D-printed actuators with an…
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Taxonomy
TopicsAdvanced Materials and Mechanics · Polymer composites and self-healing · Soft Robotics and Applications
