Add to ORKGIn recent years there has been a growing interest in the study of shape formation using modern responsive materials that can be preprogrammed to undergo spatially inhomogeneous local deformations. In particular, nematic liquid crystalline solids offer exciting possibilities in this context. Considerable recent progress has been made in achieving a variety of shape transitions in thin sheets of nematic solids by engineering isolated points of concentrated Gaussian curvature using topological defects in the nematic director field across textured surfaces. In this paper, we consider ways of achieving shape transitions in thin sheets of nematic glass by generation of non-localised Gaussian curvature in the absence of topological defects in the ...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
Non-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shel...
Throughout the science of soft matter, there are many examples of thin films that form complex curve...
In recent years there has been a growing interest in the study of shape formation using modern respo...
We describe shape transitions of thin, solid nematic sheets with smooth, preprogrammed, in-plane dir...
We discuss methods of reversibly inducing non-developable surfaces from flat sheets of material at...
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...
When nematic liquid crystals are constrained to a curved surface, the geometry induces distortions i...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
We consider three-dimensional reshaping of thin nemato-elastic sheets containing half-charged defect...
Nematic solids, both glassy and elastomeric, with defects in the director field can attain stress-fr...
Non-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shel...
The Berreman-de Gennes model, describing the azimutal anchoring energy of a nematic material oriente...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
Non-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shel...
Throughout the science of soft matter, there are many examples of thin films that form complex curve...
In recent years there has been a growing interest in the study of shape formation using modern respo...
We describe shape transitions of thin, solid nematic sheets with smooth, preprogrammed, in-plane dir...
We discuss methods of reversibly inducing non-developable surfaces from flat sheets of material at...
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...
When nematic liquid crystals are constrained to a curved surface, the geometry induces distortions i...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
We consider three-dimensional reshaping of thin nemato-elastic sheets containing half-charged defect...
Nematic solids, both glassy and elastomeric, with defects in the director field can attain stress-fr...
Non-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shel...
The Berreman-de Gennes model, describing the azimutal anchoring energy of a nematic material oriente...
We solve the forward and inverse problems associated with the transformation of flat sheets with cir...
Non-uniform director fields in flat, responsive, glassy nematic sheets lead to the induction of shel...
Throughout the science of soft matter, there are many examples of thin films that form complex curve...