1. A confined self-assembly approach towards chiral photonic materials with circularly polarized structural colors for information storage and encryption.
- Author
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Li, Lin-Yue, Li, Dong, Dong, Xiu, Tan, Qiang-Wu, Wang, Xiu-Li, Wang, Yu-Zhong, and Song, Fei
- Subjects
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STRUCTURAL colors , *CIRCULAR polarization , *OPTICAL devices , *OPTICAL reflection , *MESOPHASES , *CHOLESTERIC liquid crystals - Abstract
[Display omitted] • A confined assembly strategy is reported for polarized structural coloration. • DCP is adjusted by kinetic trapping multi-domain cholesteric mesophases. • The chiral photonic materials can be applied for information storage and encryption. Chiroptical materials with tunable circular polarization performances have gained wide interest because of promising applications in optical devices and information communication. However, limited by their intrinsic chirality, such materials suffer from serious deficiencies in dynamical manipulation on circularly polarized light (CPL). Here, we demonstrate a kinetic trapping approach to capture multi-domain cholesteric mesophases for polarization-dependent structural coloration. The resultant photonic structures depicted by limited solvent evaporation display light control from selective left-handed circularly polarized light reflection to dual reflection, as a result of forming highly tilted and distorted domains with a phase-retardation effect. Notably, a positive linear correlation is established between the circular polarization behavior and structural orientation regulated by the solvent evaporation. The tunable circular polarization structural colors enable the application of the photonic materials for complex encryption in terms of polychromatic coding arrays. The confined-anisotropic-fabrication method of photonic structures paves a foundation toward advanced functional materials with promising applications in light science and technology. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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