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Shape and structural relaxation of colloidal tactoids

Hamed Almohammadi, Sayyed Ahmad Khadem, Massimo Bagnani, Alejandro D. Rey, Raffaele Mezzenga

2022Nature Communications20 citationsDOIOpen Access PDF

Abstract

Facile geometric-structural response of liquid crystalline colloids to external fields enables many technological advances. However, the relaxation mechanisms for liquid crystalline colloids under mobile boundaries remain still unexplored. Here, by combining experiments, numerical simulations and theory, we describe the shape and structural relaxation of colloidal liquid crystalline micro-droplets, called tactoids, where amyloid fibrils and cellulose nanocrystals are used as model systems. We show that tactoids shape relaxation bears a universal single exponential decay signature and derive an analytic expression to predict this out of equilibrium process, which is governed by liquid crystalline anisotropic and isotropic contributions. The tactoids structural relaxation shows fundamentally different paths, with first- and second-order exponential decays, depending on the existence of splay/bend/twist orientation structures in the ground state. Our findings offer a comprehensive understanding on dynamic confinement effects in liquid crystalline colloidal systems and may set unexplored directions in the development of novel responsive materials.

Topics & Concepts

IsotropyRelaxation (psychology)Chemical physicsMaterials scienceColloidAnisotropyLiquid crystalSoft matterPhysicsChemistryOpticsPhysical chemistryPsychologySocial psychologyOptoelectronicsLiquid Crystal Research AdvancementsPickering emulsions and particle stabilizationAdvanced Materials and Mechanics
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