Color-tunable supramolecular luminescent materials for information anticounterfeiting

IF 6.8 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Science China Materials Pub Date : 2025-03-06 DOI:10.1007/s40843-024-3265-2

Zhen Qi (, ), Qian Wang (, ), Da-Hui Qu (, )

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引用次数: 0

Abstract

Counterfeiting-related crimes pose a serious threat to the economic interests, security, and health of governments, businesses, and consumers. The urgent need for advanced anticounterfeiting materials with multilevel security for information encryption and decryption has driven significant research in this area. Supramolecular luminescent materials are potential for anticounterfeiting owing to their dynamic and controllable optical properties. In this review, the strategies adopted for fabricating supramolecular fluorescent materials and their corresponding anticounterfeiting technologies have been discussed. Especially, the time-dependent luminescent materials, which were created by non-equilibrium supramolecular assemblies and exhibited significant changes in fluorescence intensity and wavelength over time, were highlighted for their unique dynamic feature. This feature endowed materials programmable properties on time dimension, allowing for automatic and spontaneous behavior. Consequently, a series of information encryption materials have been developed, including self-erasing fluorescence hydrogels and 4D codes, demonstrating an enhanced level of security.

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用于信息防伪的可调色超分子发光材料

假冒犯罪对政府、企业和消费者的经济利益、安全和健康构成严重威胁。迫切需要具有多级安全性的先进防伪材料用于信息加密和解密，这推动了这一领域的研究。超分子发光材料具有动态、可控的光学特性，具有潜在的防伪潜力。本文综述了制备超分子荧光材料的策略及其相应的防伪技术。特别是由非平衡超分子组装而成的时间依赖性发光材料，其荧光强度和波长随时间发生显著变化，具有独特的动态特性。这一特性赋予了材料在时间维度上的可编程特性，允许自动和自发的行为。因此，开发了一系列信息加密材料，包括自擦荧光水凝胶和4D代码，显示出更高的安全性。

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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来源期刊

Science China Materials Materials Science-General Materials Science

CiteScore

11.40

自引率

7.40%

发文量

949

期刊介绍： Science China Materials (SCM) is a globally peer-reviewed journal that covers all facets of materials science. It is supervised by the Chinese Academy of Sciences and co-sponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China. The journal is jointly published monthly in both printed and electronic forms by Science China Press and Springer. The aim of SCM is to encourage communication of high-quality, innovative research results at the cutting-edge interface of materials science with chemistry, physics, biology, and engineering. It focuses on breakthroughs from around the world and aims to become a world-leading academic journal for materials science.