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Your search keyword '"Ying, Yunbin"' showing total 8 results
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8 results on '"Ying, Yunbin"'

1. Grayscale-patterned metal-hydrogel-metal microscavity for dynamic multi-color display

Author

Zhang Jian, Wang Dandan, Ying Yunbin, Zhou Hao, Liu Xiaokai, Hu Xin, Chen Yingxin, Li Qiang, Zhang Xuefeng, and Qiu Min

Subjects
dynamic structural color, grayscale exposure, hydrogel microstructure, multi-color display, Physics, QC1-999
Abstract

Dynamic structural color based on tunable optical resonance plays a key role in applications including encryption visualization, camouflage and colorimetric sensing. However, the current design requires either complex growth processes of the high-quality tunable materials or complicated circuit designs. This work makes a humidity-swelling hydrogel layer for metal–insulator–metal (MIM) structure in the dynamic multi-color display. Here, polyvinyl alcohol (PVA) hydrogel structure is patterned through grayscale e-beam lithography and the controlled PVA thickness leads the programmable reflective resonance covering the entire visible range. By varying the ambient humidity between 9.8 and 90.1% RH, the reflective resonance of the structure is tailored across a wavelength range over 100 nm. Our materials platform of humidity-sensitive hydrogel resist presents a novel approach of the stepwise and reversible optical tunability for photonic devices.

Published
2021
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5. Dynamic transmission-reflection dichroism based on humidity-responsive metal-hydrogel-metal nanocavities

Author

Wang Dandan, Li Qiang, Ying Yunbin, Li Runhu, Cheng Mingliang, Chen Yingxin, Zhang Jian, and Zhang Xuefeng

Subjects
transmission-reflection dichroism, dynamic structural color, mim nanocavity, hydrogel microstructure, gray-scale exposure, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Physics, QC1-999
Abstract

“Lycurgus cup” effect, referring dichroism between reflection and transmission modes of the same structures, is a peculiar phenomenon of multi-faceted display in structural color. Beyond the static dichrotic display, the realization of dynamic dichroism desires active materials and tunable structures, and owns the great demand from smart display, anti-counterfeiting and environmental sensing. We hereby propose a metal-hydrogel-metal (MHM) nanocavity for dynamic dichrotic display. This structure includes thin silver layers to induce the partial transmission with the existing reflection, and a polyvinyl alcohol (PVA) hydrogel layer owning the swelling/deswelling deformability to humidity change. The following experimental measurements and theoretical analysis prove that the reflection and transmission modes exist at distinct wavelengths, and the swelling hydrogel layer by humidity change between 10 and 90% RH can dynamically modulate the dichrotic resonance with the wavelength shift over 100 nm. Such environmental-sensitive and real-time tunable dichroism with hydrogel-based structural color is then verified for multi-color printing, resolution test, and cycling test.

Published
2022
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