A new, low-T
g siloxane thermoplastic
elastomer with a functionalizable backbone was synthesized via sequential
anionic polymerization and coupling, and its utility as a platform
to produce functional elastomers was demonstrated by the attachment
of a photoresponsive liquid crystal to produce a rapid, room temperature
photoactuator. Polystyrene was used as a hard glassy end block, and
poly(vinylmethylsiloxane) served as the soft middle segment in a polystyrene-b-poly(vinylmethylsiloxane)-b-polystyrene
ABA triblock copolymer. The vinyl side chain was used to attach a
side-on oriented mesogen to the siloxane backbone, and the resulting
liquid crystal triblock copolymer was characterized with reversible
photocontraction tests, where it was shown to be both elastomeric
and rapidly photoresponsive at room temperature. Rather than simply
undergoing a bending mechanism, an oriented thin cast film of the
elastomer was observed to contract reversibly at a tensile strain
of 3.3% against 25.7 kPa of applied stress in ∼5.9 s. This
strategy to produce functional liquid crystal elastomers is based
on the formation of spherical block copolymers with a low temperature T
g for the soft domain, in contrast to cross-linked
elastomers. Because the approach is simple, robust, and applicable
to a wide variety of functional moieties, the resulting materials
are thermoplastics that can be processed to achieve preferential orientation
using standard methods, thus enhancing the capability to produce and
utilize functional actuators.
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