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Photosynthetically-powered phototactic active nematic liquid crystal fluids and gels

Andrii Repula, Colin Gates, Jeffrey C. Cameron, Ivan I. Smalyukh

2024Communications Materials11 citationsDOIOpen Access PDF

Abstract

Abstract One of the most ancient forms of life dating to ~3.5 billion years ago, cyanobacteria are highly abundant organisms that convert light into energy and motion, often within conjoined filaments and larger colonies that attract a great deal of interest but their active nematic behavior remained unexplored. Here we demonstrate how light causes a spontaneous self-assembly of two- and three-dimensional active nematic states of cyanobacterial filaments, with a plethora of topological defects. We quantify light-controlled evolutions of orientational and velocity order parameters during the transition between disordered and orientationally ordered states of photosynthetic active matter, as well as the subsequent active nematic’s fluid-gel transformation. Patterned illumination and foreign inclusions with different shapes interact with cyanobacterial active nematics in nontrivial ways while inducing interfacial boundary conditions and fractional boojum defects. Our phototactic model system promises opportunities to systematically explore fundamental properties and technological utility of the liquid crystalline active matter.

Topics & Concepts

PhototaxisLiquid crystalActive matterLiquid crystallineChemical physicsTopological defectOrder (exchange)Materials scienceOpticsNanotechnologyPhysicsCondensed matter physicsBiologyBotanyFinanceEconomicsCell biologyMicro and Nano RoboticsPickering emulsions and particle stabilizationSpaceflight effects on biology
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