Optical Anti-Counterfeiting with Cholesteric Liquid Crystal Emulsions: Preparation, Properties, and Applications
Abstract
The pursuit of creating sophisticated anti-counterfeiting tags with unique optical characteristics and detailed security attributes is a highly desirable objective in order to establish a robust authentication capacity across different stimulus modalities. The ability of structured photonic materials to periodically alter their refractive index enables selective diffraction of specific wavelengths and the tuning of optical density states, leading to the discovery of novel optical properties. This fine-tuning is advantageous for numerous optical applications. Using emulsion templates, microparticles with photonic structures have been created, offering enhanced features and functionalities beyond those of standard films. In this realm, Cholesteric liquid crystal (LC) emulsions have recently attracted significant interest. Their inherent periodic structures and modifiable optical signals, responsive to external stimuli, present unique benefits and a broad spectrum of applications in optical anticounterfeiting. This review explores the preparation techniques of cholesteric LC emulsions, the latest developments in cholesteric LC droplets for various anticounterfeiting intensities, and the range of optical anticounterfeiting effects achievable with these droplets under different stimulus conditions. It also provides a brief overview of the existing challenges and prospective future applications of cholesteric LC droplets in anticounterfeiting systems. The aim of this review is to offer fresh insights and suggestions for enhancing optical anticounterfeiting strategies through the application of cholesteric LC emulsions.
- This article is part of the themed collection: Recent Review Articles