Journal
NATURE COMMUNICATIONS
Volume 12, Issue 1, Pages -Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41467-021-26136-8
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Funding
- Alexander von Humboldt Foundation
- Max Planck Society
- European Research Council (ERC) Advanced Grant SoMMoR project [834531]
- German Research Foundation (DFG) Soft Material Robotic Systems (SPP 2100) Program [2197/3-1]
- Projekt DEAL
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Pre-patterning director fields into liquid crystal elastomers enables programmed morphing upon actuation, allowing for various applications in soft robotics, dynamic optics, and programmable origami and kirigami. This technology makes it possible to achieve programmable shape changes in materials, depending on their geometries and director fields.
Pre-patterning director fields into liquid crystal elastomers enables programmed morphing upon actuation. Guo et al. realize 3D skeletal assemblies with previously non-achievable director fields and morphing modes. Liquid crystal elastomers exhibit large reversible strain and programmable shape transformations, enabling various applications in soft robotics, dynamic optics, and programmable origami and kirigami. The morphing modes of these materials depend on both their geometries and director fields. In two dimensions, a pixel-by-pixel design has been accomplished to attain more flexibility over the spatial resolution of the liquid crystal response. Here we generalize this idea in two steps. First, we create independent, cubic light-responsive voxels, each with a predefined director field orientation. Second, these voxels are in turn assembled to form lines, grids, or skeletal structures that would be rather difficult to obtain from an initially connected material sample. In this way, the orientation of the director fields can be made to vary at voxel resolution to allow for programmable optically- or thermally-triggered anisotropic or heterogeneous material responses and morphology changes in three dimensions that would be impossible or hard to implement otherwise.
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