Centimeter scale color printing with grayscale lithography

Advanced Photonics Nexus Pub Date : 2022-10-07 DOI:10.1117/1.APN.1.2.026002

Yu Chen, Yang Li, Wenhao Tang, Yutao Tang, Yue Hu, Zixian Hu, Junhong Deng, K. Cheah, Guixin Li

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引用次数: 2

Abstract

Abstract. Structural color from artificial structures, due to its environmental friendliness and excellent durability, represents a route for color printing applications. Among various physical mechanisms, the Fabry–Perot (F–P) cavity effect provides a powerful way to generate vivid colors in either the reflection or transmission direction. Most of the previous F–P type color printing works rely on electron beam grayscale lithography, however, with this technique it is challenging to make large-area and low-cost devices. To circumvent this constraint, we propose to fabricate the F–P type color printing device by the laser grayscale lithography process. The F–P cavity consists of two thin silver films as mirrors and a photoresist film with a spatially variant thickness as the spacer layer. By controlling the laser exposure dose pixel by pixel, a centimeter-scale full-color printing device with a spatial resolution up to 5 μm × 5 μm is demonstrated. The proposed large area color printing device may have great potential in practical application areas such as color displays, hyperspectral imaging, advanced painting, and so on.

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厘米级彩色印刷采用灰度平版印刷

摘要人造结构的结构色，由于其环保和优异的耐久性，代表了彩色印刷应用的一条路线。在各种物理机制中，法布里-珀罗(F-P)空腔效应提供了在反射或透射方向上产生鲜艳色彩的有力途径。以往的F-P型彩色印刷大多依赖于电子束灰度光刻技术，然而，使用这种技术制造大面积和低成本的设备具有挑战性。为了克服这一限制，我们提出用激光灰度光刻工艺制造F-P型彩色印刷装置。F-P腔由两层作为反射镜的银薄膜和一层具有空间变化厚度的光刻胶薄膜作为间隔层组成。通过逐像素控制激光照射剂量，实现了空间分辨率达到5 μm × 5 μm的厘米级全彩色打印装置。所提出的大面积彩色印刷装置在彩色显示、高光谱成像、高级绘画等实际应用领域具有很大的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advanced Photonics Nexus

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