Swollen elastomer liquid crystals undergo significant deformations by application of an electric field perpendicular to their alignment axis, as shown in experiments by Urayama et al. [Urayama K, Honda S, Takigawa T (2006) Macromolecules 39:1943–1949]. Here we clarify this surprising effect at the molecular level using largescale Monte Carlo simulations of an off-lattice model based on a soft Gay–Berne potential. We provide the internal change of molecular organization, as well as the key observables during the actuation cycle.
Molecular simulations elucidate electric field actuation in swollen liquid crystal elastomers
ZANNONI, CLAUDIO
2012
Abstract
Swollen elastomer liquid crystals undergo significant deformations by application of an electric field perpendicular to their alignment axis, as shown in experiments by Urayama et al. [Urayama K, Honda S, Takigawa T (2006) Macromolecules 39:1943–1949]. Here we clarify this surprising effect at the molecular level using largescale Monte Carlo simulations of an off-lattice model based on a soft Gay–Berne potential. We provide the internal change of molecular organization, as well as the key observables during the actuation cycle.File in questo prodotto:
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