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Relaxation dynamics in bio-colloidal cholesteric liquid crystals confined to cylindrical geometry

Sayyed Ahmad Khadem, Massimo Bagnani, Raffaele Mezzenga and Alejandro D. Rey ()
Additional contact information
Sayyed Ahmad Khadem: McGill University
Massimo Bagnani: ETH Zurich
Raffaele Mezzenga: ETH Zurich
Alejandro D. Rey: McGill University

Nature Communications, 2020, vol. 11, issue 1, 1-10

Abstract: Abstract Para-nematic phases, induced by unwinding chiral helices, spontaneously relax to a chiral ground state through phase ordering dynamics that are of great interest and crucial for applications such as stimuli-responsive and biomimetic engineering. In this work, we characterize the cholesteric phase relaxation behaviors of β-lactoglobulin amyloid fibrils and cellulose nanocrystals confined into cylindrical capillaries, uncovering two different equilibration pathways. The integration of experimental measurements and theoretical predictions reveals the starkly distinct underlying mechanism behind the relaxation dynamics of β-lactoglobulin amyloid fibrils, characterized by slow equilibration achieved through consecutive sigmoidal-like steps, and of cellulose nanocrystals, characterized by fast equilibration obtained through smooth relaxation dynamics. Particularly, the specific relaxation behaviors are shown to emerge from the order parameter of the unwound cholesteric medium, which depends on chirality and elasticity. The experimental findings are supported by direct numerical simulations, allowing to establish hard-to-measure viscoelastic properties without applying magnetic or electric fields.

Date: 2020
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DOI: 10.1038/s41467-020-18421-9

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