Waterproof Room‐Temperature Phosphorescence Films by Host‐Guest Inclusion and Hydrogen Bonding Network

磷光 材料科学 寄主(生物学) 氢键 包裹体(矿物) 光电子学 纳米技术 分子 光学 有机化学 矿物学 物理 荧光 化学 生物 生态学
作者
Jiayi Liu,Shuai Liu,Wen‐Sheng Xu,Changchang Bo,Qinglong Jia,Jiaying Cui,Tingting Li,Ligong Chen,Bowei Wang
出处
期刊:Advanced Optical Materials [Wiley]
卷期号:12 (14) 被引量:14
标识
DOI:10.1002/adom.202302928
摘要

Abstract Supramolecular room temperature phosphorescence (RTP) materials are attractive due to their excellent RTP characteristics and water resistance. By evaluating the photophysical properties of HA/BisNpI‐doped materials, it is proved that hyaluronic acid (HA) is a promising matrix and the rigid plane N,N ′‐(1,4‐phenylene)‐bis(1,8‐naphthalimide) (Ph‐BisNpI) is an excellent luminescent guest molecule for constructing RTP materials. Moreover, it is found that γ‐cyclodextrin (γ‐CD) can successfully bind BisNpI guest molecule. Accordingly, a tightly arranged ternary supramolecular system with HA as matrix, Ph‐BisNpI as the guest, and γ‐CD as the host is constructed by host‐guest interaction and hydrogen bonding. As expected, the obtained ternary supramolecular system HA/Ph@CD8 displays a superior RTP performance (52.7 ms longer lifetime than HA/Ph), water‐resistance, and even aqueous RTP ( τ = 207 µs), which significantly extends the application of RTP in aqueous solution. These results are possibly attributed to the inclusion of γ‐CD on Ph‐BisNpI guest molecules and the self‐assembly of γ‐CD and HA to form a rigid hydrogen bonding network, which effectively inhibits the non‐radiative decay of Ph‐BisNpI and shields the triplet excitons from water and oxygen. Furthermore, the prepared ternary supramolecular RTP materials are successfully used as anticounterfeiting ink and exhibit broader application prospects in water environments.
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