Add to ORKGNon-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shells with non-trivial topography on the application of light or heat. Contraction along the director causes metric change, with, in general, the induction of Gaussian curvature, that drives the topography change. We describe the metric change, the evolution of the director field, and the transformation of reference state material curves, e.g. spirals into radii, as curvature develops. The non-isometric deformations associated with heat or light change the geodesics of the surface, intriguingly even in regions where no Gaussian curvature results
Liquid crystal elastomers (LCEs) can undergo large reversible contractions along their nematic direc...
Liquid crystal elastomers (LCEs) can undergo large reversible contractions along their nematic direc...
Flat sheets encoded with patterns of contraction/elongation morph into curved surfaces. If the surfa...
Non-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shel...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
We describe shape transitions of thin, solid nematic sheets with smooth, preprogrammed, in-plane dir...
Nematic solids, both glassy and elastomeric, with defects in the director field can attain stress-fr...
In recent years there has been a growing interest in the study of shape formation using modern respo...
In recent years there has been a growing interest in the study of shape formation using modern respo...
We revisit the light or heat-induced changes in topography of initially flat sheets of a solid that ...
We discuss methods of reversibly inducing non-developable surfaces from flat sheets of material at...
When nematic liquid crystals are constrained to a curved surface, the geometry induces distortions i...
Recent attention has been given to the realization of angular deficits and surpluses in the local gr...
Nematic solids respond strongly to changes in ambient heat or light, significantly differently paral...
Liquid crystal elastomers (LCEs) can undergo large reversible contractions along their nematic direc...
Liquid crystal elastomers (LCEs) can undergo large reversible contractions along their nematic direc...
Flat sheets encoded with patterns of contraction/elongation morph into curved surfaces. If the surfa...
Non-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shel...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
We describe shape transitions of thin, solid nematic sheets with smooth, preprogrammed, in-plane dir...
Nematic solids, both glassy and elastomeric, with defects in the director field can attain stress-fr...
In recent years there has been a growing interest in the study of shape formation using modern respo...
In recent years there has been a growing interest in the study of shape formation using modern respo...
We revisit the light or heat-induced changes in topography of initially flat sheets of a solid that ...
We discuss methods of reversibly inducing non-developable surfaces from flat sheets of material at...
When nematic liquid crystals are constrained to a curved surface, the geometry induces distortions i...
Recent attention has been given to the realization of angular deficits and surpluses in the local gr...
Nematic solids respond strongly to changes in ambient heat or light, significantly differently paral...
Liquid crystal elastomers (LCEs) can undergo large reversible contractions along their nematic direc...
Liquid crystal elastomers (LCEs) can undergo large reversible contractions along their nematic direc...
Flat sheets encoded with patterns of contraction/elongation morph into curved surfaces. If the surfa...