Robotic Materials

Liquid Crystal Elastomers with Enhanced Directional Actuation to Electric Fields

2021

Article

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The integration of soft, stimuli-responsive materials in robotic systems is a promising approach to introduce dexterous and delicate manipulation of objects. Electrical control of mechanical response offers many benefits in robotic systems including the availability of this energy input, the associated response time, magnitude of actuation, and opportunity for self-regulation. Here, a materials chemistry is detailed to prepare liquid crystal elastomers (LCEs) with a 14:1 modulus contrast and increase in dielectric constant to enhance electromechanical deformation. The inherent modulus contrast of these LCEs (when coated with compliant electrodes) directly convert an electric field to a directional expansion of 20%. The electromechanical response of LCE actuators is observed upon application of voltage ranging from 0.5 to 6 kV. The deformation of these materials is rapid, reaching strain rates of 18% s−1. Upon removal of the electric field, little hysteresis is observed. Patterning the spatial orientation of the nematic director of the LCEs results in a 2D–3D shape transformation to a cone 8 mm in height. Individual and sequential addressing of an array of LCE actuators is demonstrated as a haptic surface.

Author(s): Fowler, Hayden E. and Rothemund, Philipp and Keplinger, Christoph and White, Timothy J.
Journal: Advanced Materials
Volume: 33
Number (issue): 43
Pages: 2103806
Year: 2021

Department(s): Robotic Materials
Research Project(s): Liquid Crystal Elastomers with Enhanced Directional Actuation to Electric Fields
Bibtex Type: Article (article)
Paper Type: Journal

DOI: 10.1002/adma.202103806

BibTex

@article{Fowler21-am-crystal,
  title = {Liquid Crystal Elastomers with Enhanced Directional Actuation to Electric Fields},
  author = {Fowler, Hayden E. and Rothemund, Philipp and Keplinger, Christoph and White, Timothy J.},
  journal = {Advanced Materials},
  volume = {33},
  number = {43},
  pages = {2103806},
  year = {2021},
  doi = {10.1002/adma.202103806}
}