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Optical Gas Sensing with Encapsulated Chiral-Nematic Liquid Crystals

Lukas Pschyklenk, Thorsten Wagner, Alexander Lorenz, Peter Kaul

2020ACS Applied Polymer Materials49 citationsDOIOpen Access PDF

Abstract

Optical gas sensors based on chiral-nematic liquid crystals (N* LCs) forming one-dimensional photonic crystals do not require electrical energy and have a considerable potential to supplement established types of sensors. A chiral-nematic phase with tunable selective reflection is induced in a nematic host LC by adding reactive chiral dopants. The selective chemical reaction between dopant and analyte is capable to vary the pitch length (the lattice constant) of the soft, self-assembled, one-dimensional photonic crystal. The progress of the ongoing chemical reaction can be observed even by naked eye because the color of the samples varies. In this work, we encapsulate the responsive N* LC in microscale polyvinylpyrrolidone (PVP) fibers via coaxial electrospinning. The sensor is, thus, given a solid form and has an improved stability against nonavoidable environmental influences. The reaction behavior of encapsulated and nonencapsulated N* LC toward a gaseous analyte is compared, systematically. Making use of the encapsulation is an important step to improve the applicability.

Topics & Concepts

Liquid crystalDopantMaterials scienceMicroscale chemistryAnalyteNaked eyeNanotechnologyPolyvinylpyrrolidoneChemical engineeringOptoelectronicsChemical physicsDopingChromatographyPolymer chemistryChemistryDetection limitEngineeringMathematics educationMathematicsLiquid Crystal Research AdvancementsPhotonic Crystals and ApplicationsElectrowetting and Microfluidic Technologies