Ultra-High Secure Holographically Steganographic Array with Spatiotemporal Dual-Encryption Keys

IF 18.5 1区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Zelin Zhu, Xiuping Qi, Zhihao Zhang, Xuanyu Dou, Xinxin Jiang, Yutong Liu, Shencheng Fu, Xintong Zhang, Yichun Liu
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引用次数: 0

Abstract

Independently-manipulated optical encryption has attracted great attention due to its high security and multiple application scenarios. Although photochromic molecules have become preferred holographic display units, the integration of dynamic modulation both in hologram and fluorescence for orthogonal encryption is still challenged. Herein, a latticed holographically steganographic array is constructed by incorporating a plasticizer (tri-o-cresyl phosphate, TOCP) into spirooxazine (SO) based polymers, thereby modulating the isomerization rate and the UV-fluorescence kinetics between SO and merocyanine (MC). The period to reach fluorescence saturated value for each information bit in the latticed device can be widely modulated between 60 and 1700 s. Based on the property, only through ultraviolet stimulation can array information gradually be converted from spatial lattice coordinates to holographic display time. Then, a hidden 3D image can be determined from rapidly updatable reconstructed hologram video with refresh rate 1.125 Hz by the above spatiotemporal dual-encryption keys. This work provides a bright path for the ultra-high safety steganography and adaptive stereoscopic imaging.

Abstract Image

具有时空双加密密钥的超高安全性全息隐写阵列
独立操控的光学加密因其高度安全性和多种应用场景而备受关注。尽管光致变色分子已成为首选的全息显示单元,但如何将全息和荧光的动态调制结合起来实现正交加密仍是一个挑战。本文通过在螺恶嗪(SO)基聚合物中加入增塑剂(磷酸三邻甲酚酯,TOCP),从而调节 SO 和美罗菁华(MC)之间的异构化速率和紫外荧光动力学,构建了一种晶格全息隐写阵列。根据这一特性,只有通过紫外线刺激,阵列信息才能逐渐从空间晶格坐标转换为全息显示时间。然后,通过上述时空双加密密钥,就能从刷新率为 1.125 Hz、可快速更新的重构全息视频中确定隐藏的三维图像。这项工作为超高安全性隐写术和自适应立体成像提供了一条光明之路。
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来源期刊
Advanced Functional Materials
Advanced Functional Materials 工程技术-材料科学:综合
CiteScore
29.50
自引率
4.20%
发文量
2086
审稿时长
2.1 months
期刊介绍: Firmly established as a top-tier materials science journal, Advanced Functional Materials reports breakthrough research in all aspects of materials science, including nanotechnology, chemistry, physics, and biology every week. Advanced Functional Materials is known for its rapid and fair peer review, quality content, and high impact, making it the first choice of the international materials science community.
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