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- Title
Instant Locking of Molecular Ordering in Liquid Crystal Elastomers by Oxygen‐Mediated Thiol–Acrylate Click Reactions.
- Authors
Xia, Yu; Zhang, Xinyue; Yang, Shu
- Abstract
Abstract: Liquid crystal elastomers (LCEs) with intrinsic anisotropic strains are reversible shape‐memory polymers of interest in sensor, actuator, and soft robotics applications. Rapid gelation of LCEs is required to fix molecular ordering within the elastomer network, which is essential for directed shape transformation. A highly efficient photo‐cross‐linking chemistry, based on two‐step oxygen‐mediated thiol–acrylate click reactions, allows for nearly instant gelation of the main‐chain LCE network upon exposure to UV light. Molecular orientation from the pre‐aligned liquid crystal oligomers can be faithfully transferred to the LCE films, allowing for preprogrammed shape morphing from two to three dimensions by origami‐ (folding‐only) and kirigami‐like (folding with cutting) mechanisms. The new LCE chemistry also enables widely tunable physical properties, including nematic‐to‐ isotropic phase‐transition temperatures (<italic>T</italic>N‐I), glassy transition temperatures (<italic>T</italic>g), and mechanical strains, without disrupting the LC ordering.
- Subjects
LIQUID crystals; SHAPE memory polymers; ELASTOMERS; SOFT robotics; MOLECULAR orientation; GLASS transition temperature
- Publication
Angewandte Chemie, 2018, Vol 130, Issue 20, p5767
- ISSN
0044-8249
- Publication type
Article
- DOI
10.1002/ange.201800366