手性结构颜色来自微圆顶

IF 9.1 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Proceedings of the National Academy of Sciences of the United States of America Pub Date : 2025-02-25 DOI:10.1073/pnas.2419113122

Xintao Lai, Tongyu Li, Xiaoyu Hou, Florian Vogelbacher, Jiajun Wang, Yanlin Song, Lei Shi, Mingzhu Li

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引用次数: 0

摘要

人工手性结构彩色材料可以承载基于多光学自由度的高维信息，为先进的光学安全和信息存储提供了可能。然而，目前的人工手性结构色材料由于其特殊的成分、精细的纳米结构和单一的偏振调制而受到阻碍。在这里，我们发现由普通聚合物制成的微球具有具有宽带可调性和多极化调制手性的手性结构色。微圆顶图案很容易通过普通印刷技术制造，具有全偏振态的非均匀空间分布和可定制的颜色。我们的手性结构彩色微球（CSCMs）为高容量信息加密和高安全性防伪提供了一个有前途的路线图。我们开发了多维可调结构彩色显示器，并实现了高信息容量的加密。为了进一步突出其应用潜力，我们构建了集成CSCMs的隐形眼镜，用于具有2 32种不同密码的身份认证。

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Chiral structural color from microdomes

Artificial chiral-structural-color materials can carry high-dimensional information based on multiple optical degrees of freedom, providing possibilities for advanced optical security and information storage. However, current artificial chiral-structural-color materials are hindered by their specific compositions, fine nanostructures, and single polarization modulation. Here, we found that microdomes made from common polymers have chiral structural colors with broadband tunability and multiple polarization-modulated chirality. The microdome patterns are easily fabricated by ordinary printing techniques and have inhomogeneous spatial distributions of full polarization states and customizable colors. Our chiral-structural-color microdomes (CSCMs) provide a promising roadmap for high-capacity information encryption and high-security anti-counterfeiting. We developed multidimensional tunable structural color displays and achieved encryption with high information capacity. To further highlight the application potential, we constructed contact lenses integrated with CSCMs for identity authentication with 2 32 distinctive cryptograms.

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来源期刊

Proceedings of the National Academy of Sciences of the United States of America 综合性期刊-综合性期刊

CiteScore

19.00

自引率

0.90%

发文量

3575

审稿时长

2.5 months

期刊介绍： The Proceedings of the National Academy of Sciences (PNAS), a peer-reviewed journal of the National Academy of Sciences (NAS), serves as an authoritative source for high-impact, original research across the biological, physical, and social sciences. With a global scope, the journal welcomes submissions from researchers worldwide, making it an inclusive platform for advancing scientific knowledge.