Litcius/Paper detail

Electric-Field-Induced Chirality in Columnar Liquid Crystals

Alberto Concellón, Ru‐Qiang Lu, Kosuke Yoshinaga, Hsiu‐Fu Hsu, Timothy M. Swager

2021Journal of the American Chemical Society40 citationsDOIOpen Access PDF

Abstract

-type aggregates in solution. The discotic mesogens also show an enhancement of the emission upon aggregation. Interestingly, these discotic molecules displayed enantiotropic hexagonal columnar liquid crystal (LC) phases that can be switched into a helical columnar organization by application of an electric field. The helical columns arise from the electric-field-induced tilt of the polar fluorobenzene ring that directs all of the peripheral phenyl groups into a propeller-like conformation with respect to the central benzene core. A cooperative assembly process of these propeller-shaped molecules resolves into a helical columnar organization, in which the preferred helical sense is obtained from the stereogenic center proximate to the polar carbon-fluorine bond. The ease of inducing chirality in columnar LCs by an electric field presents opportunities to create next-generation chiral materials for a variety of applications.

Topics & Concepts

ChemistryColumnar phaseStereocenterLiquid crystalChirality (physics)MoleculeDiscotic liquid crystalElectric fieldCrystallographyChemical polarityPolarChemical physicsMesophasePhase (matter)Materials scienceOrganic chemistryOptoelectronicsPhysicsEnantioselective synthesisQuarkQuantum mechanicsCatalysisNambu–Jona-Lasinio modelAstronomyChiral symmetry breakingLiquid Crystal Research AdvancementsSynthesis and Properties of Aromatic CompoundsPorphyrin and Phthalocyanine Chemistry