Abstract
Replicating biological patterns is promising for designing materials with multifaceted properties. Twisted cholesteric liquid crystal patterns are found in the iridescent tessellated cuticles of many insects and a few fruits. Their accurate replication is extremely difficult since discontinuous patterns and colors must coexist in a single layer without discontinuity of the structures. Here, a solution is demonstrated by addressing striped insect cuticles with a complex twisted organization. Geometric constraints are met by controlling the thermal diffusion in a cholesteric oligomer bilayer subjected to local changes in the molecular anchoring conditions. A multicriterion comparison reveals a very high level of biomimicry. Proof-of-concept prototypes of anti-counterfeiting tags are presented. The present design involves an economy of resources and a high versatility of chiral patterns unreached by the current manufacturing techniques such as metallic layer vacuum deposition, template embossing and various forms of lithography which are limited and often prohibitively expensive.
Highlights
Replicating biological patterns is promising for designing materials with multifaceted properties
Each layer behaves like a uniaxial anisotropic medium with the slow axis parallel to the molecules and the fast axis perpendicular to them when the cholesteric liquid crystal (CLC) structure is modelled as a layered system
When light propagates through a CLC in the Bragg regime, the medium behaves like a multilayer system, producing interferential colors
Summary
Replicating biological patterns is promising for designing materials with multifaceted properties. D Green and silver bands at their interface as observed by optical microscopy (reflection mode, unpolarized light).
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