Dynamic multimodal holograms of conjugated organogels via dithering mask lithography.
Jongwon OhDahye BaekTae Kyung LeeDongwon KangHyeri HwangEun Min GoInkyu JeonYounghoon YouChangil SonDowon KimMinji WhangKibum NamMoonjeong JangJung-Hoon ParkSang Kyu KwakJungwook KimJiseok LeePublished in: Nature materials (2021)
Polymeric materials have been used to realize optical systems that, through periodic variations of their structural or optical properties, interact with light-generating holographic signals. Complex holographic systems can also be dynamically controlled through exposure to external stimuli, yet they usually contain only a single type of holographic mode. Here, we report a conjugated organogel that reversibly displays three modes of holograms in a single architecture. Using dithering mask lithography, we realized two-dimensional patterns with varying cross-linking densities on a conjugated polydiacetylene. In protic solvents, the organogel contracts anisotropically to develop optical and structural heterogeneities along the third dimension, displaying holograms in the form of three-dimensional full parallax signals, both in fluorescence and bright-field microscopy imaging. In aprotic solvents, these heterogeneities diminish as organogels expand, recovering the two-dimensional periodicity to display a third hologram mode based on iridescent structural colours. Our study presents a next-generation hologram manufacturing method for multilevel encryption technologies.