【Adv Mater】Erasable, Rewritable, And Reprogrammable Dual Information Encryption Based on Photoluminescent Supramolecular Host‐Guest Recognition And Hydrogel Shape Memory
作者:Hailong Yang, Shengnan Li, Jingxia Zheng, Guoqi Chen, Yang Cong*, and Jun Fu*
关键字:Information encryption, dual-encryption, supramolecular recognition, fluorescent responsive
论文来源:期刊
具体来源:Advanced Materials
发表时间:2023年
Information encryption technologies are very important for security, health, commodity, and communications, etc. Novel information encryption mechanisms and materials are desired to achieve multi-mode and re-programmable encryption. Here, we demonstrate a supramolecular strategy to achieve multi-modal, erasable, reprogrammable, and reusable information encryption by reversibly modulating fluorescence. A butyl-naphthalimide with flexible ethylenediamine functionalized β-cyclodextrin (N-CD) is utilized as fluorescent responsive ink for printing or patterning information on polymer brushes with dangling adamantane group grafted on responsive hydrogels. The photoluminescent naphthalimide moiety is bonded to β-CD and entrapped in the cavity. Its fluorescence is highly weakened in β-CD cavity and recovers after being expelled from the cavity by a competing guest molecule to emit bright green photoluminescence under UV. Experiments and theoretical calculations suggest π-π stacking and ICT as the primary mechanism for the naphthalimides assembly and fluorescence, which can be quenched through insertion of conjugated molecules and recover by removing the insert. Such reversible quenching and recovering are used to achieve repeated writing, erasing, and re-writing of information. We further combine supramolecular recognition and hydrogel shape memory to achieve reversible dual-encryption. This study provides a novel strategy to develop smart materials with improved information security for broad applications.
https://onlinelibrary.wiley.com/doi/abs/10.1002/adma.202301300