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Helix Inversion Controlled by Molecular Motors in Multistate Liquid Crystals

Alexander Ryabchun, Federico Lancia, Jiawen Chen, Dmitry Morozov, Ben L. Feringa, Nathalie Katsonis

2020Advanced Materials88 citationsDOIOpen Access PDF

Abstract

Unravelling the rules of molecular motion is a contemporary challenge that promises to support the development of responsive materials and is likely to enhance the understanding of functional motion. Advances in integrating light-driven molecular motors in soft matter have led to the design and realization of chiral nematic (cholesteric) liquid crystals that can respond to light with modification of their helical pitch, and also with helix inversion. Under illumination, these chiral liquid crystals convert from one helical geometry to another. Here, a series of light-driven molecular motors that feature a rich configurational landscape is presented, specifically which involves three stable chiral states. The succession of chiral structures involved in the motor cycle is transmitted at higher structural levels, as the cholesteric liquid crystals that are formed can interconvert between helices of opposite handedness, reversibly. In these materials, the dynamic features of the motors are thus expressed at the near-macroscopic, functional level, into addressable colors that can be used in advanced materials for tunable optics and photonics.

Topics & Concepts

Liquid crystalMaterials scienceMolecular motorLiquid crystallineHelix (gastropod)PhotonicsInversion (geology)Realization (probability)Molecular switchNanotechnologyChemical physicsStructural motifMoleculeOptoelectronicsPhysicsChemistryNuclear magnetic resonanceOrganic chemistryEcologyBiologySnailPaleontologyStructural basinMathematicsStatisticsSupramolecular Chemistry and ComplexesSupramolecular Self-Assembly in MaterialsLuminescence and Fluorescent Materials
Helix Inversion Controlled by Molecular Motors in Multistate Liquid Crystals | Litcius