Abstract
There’s no shortage of soft robots or actuators able to move themselves and other cargo, but these malleable machines tend to work slowly, says Nathalie Katsonis of the University of Twente. Researchers led by Katsonis and Stephen P. Fletcher of the University of Oxford want speedier energy delivery and decided to turn to liquid crystal chemistry. The researchers began with a thin film of an elastomeric liquid crystal featuring light-sensitive azobenzene moieties. By shining ultraviolet and visible light onto specific portions of the liquid crystal, the team created alternating stripes in the film such that half contained a well-aligned polymer, while the remaining stripes were more disordered. Then the researchers cut the striped film into ribbons and stuck two together, back-to-back. When illuminated with another dose of UV light, the alternating polymer stripes expanded at different rates, creating a strain that built up in the paired ribbons. The ribbons bent,
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