Carbon dots-engineered gold nanoclusters in silica enabled aqueous-phase fluorescence-phosphorescence dual-emission towards advanced luminescent anti-counterfeiting

纳米团簇 磷光 荧光 发光 材料科学 纳米技术 碳纤维 胶体金 持续发光 量子点 水溶液 纳米颗粒 光电子学 化学 复合数 有机化学 复合材料 光学 物理 热释光
作者
Xiaojian Yan,Lin Wang,Wencheng Zhong,Ximeng Wang,Wenxing Gao,Li Shang
出处
期刊:Nano Research [Springer Science+Business Media]
卷期号:18 (2): 94907172-94907172 被引量:16
标识
DOI:10.26599/nr.2025.94907172
摘要

Development of new anti-counterfeiting technology with dynamic optical signals has drawn great attention, but the use of multiple external stimulus or long-time light irradiation inevitably increases the operation complexity and limits the practical application. In this work, we report the design of new fluorescence-phosphorescence dual-emission materials based on carbon dots (CDs)-engineered gold nanoclusters (AuNCs) in silica for advanced luminescent anti-counterfeiting. In particular, co-encapsulation of phosphorescent CDs and fluorescent AuNCs by rigid silica matrix enables the construction of a dual-emission system (AuNCs/CDs@SiO2) in aqueous phase. The AuNCs/CDs@SiO2 composite displayed significant fluorescence color change based on inner filter effect, as confirmed by in-depth spectral and photophysical characterization. Highly reversible and dynamic color switching between magenta fluorescence and green phosphorescence was easily achieved by simply switching on/off the ultraviolet (UV) irradiation. Potential utility of dual-emitting AuNCs/CDs@SiO2 as novel dynamic anti-counterfeiting materials has been successfully demonstrated, including anti-counterfeiting ink, ink-free optical printing film, and information encryption. The present aqueous-phase fluorescence-phosphorescence dual-emission system exhibits two types of anti-counterfeiting mode without introducing external stimulus, increasing the difficulty of imitation and duplication. This work provides a straightforward and generable strategy to design advanced optical anti-counterfeiting materials by combining phosphorescent materials with other fluorophores via reasonable engineering strategy.
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