Litcius/Paper detail

Photo‐ and Thermo‐Responsive Switchable Smart Windows Developed by the Control of 3D Molecular Orientation of Chiral Liquid Crystals with Azobenzene Molecular Engineering

Won‐Jin Yoon, Seok‐In Lim, Minwoo Rim, Jahyeon Koo, Hyeyoon Ko, Junhwa Jang, Mintaek Oh, Luciano De Sio, Yu‐Jin Choi, Kwang‐Un Jeong

2025Advanced Functional Materials13 citationsDOI

Abstract

Abstract This study introduces a passive smart window whose state can be adjusted based on external stimuli, such as light and heat, by controlling the 3D molecular orientation of chiral liquid crystals (LCs). The 3D molecular orientation of chiral LCs is automatically controlled by azobenzene‐based molecular engineering of the surface (AZ‐COOH) and bulk molecular alignment (B1AZ) in the host LC (HLC). The resulting chiral LC (3D‐ALC) smart windows are transparent under ambient conditions because of the vertically aligned HLC in the chiral smectic A (SmA*) monodomain. When exposed to UV light at room temperature, the 3D‐ALC smart windows become opaque. This change occurs because the photoisomerization of the azobenzene‐based alignment molecules transforms the SmA* monodomains into randomly dispersed multidomains. Above 35 °C (T NI of HLC), the HLC phase transforms into a focal conic state, resulting in an opaque state, regardless of UV light irradiation. The newly developed photo‐ and thermo‐responsive smart window offers a new energy‐saving window for maintaining comfortable indoor environments in automobiles and buildings.

Topics & Concepts

AzobenzeneMaterials scienceOpacityPhotoisomerizationLiquid crystalSmart materialSMA*OptoelectronicsNanotechnologyOpticsComposite materialPolymerIsomerizationOrganic chemistryComputer scienceCatalysisAlgorithmPhysicsChemistryLiquid Crystal Research AdvancementsAdvanced Materials and MechanicsPhotochromic and Fluorescence Chemistry