Hollow SiO2 photonic crystal - graphene quantum dots composite and its application in multi-level intelligent anti-counterfeiting through regulation synergistic effect of structural color and fluorescence

石墨烯 量子点 复合数 荧光 光子晶体 材料科学 结构着色 纳米技术 光电子学 光子学 量子 碳量子点 复合材料 光学 物理 量子力学
作者
Guoyi Pan,Jiaying Zhang,Yibin Lin,Jiaxin Li,Jieheng Zhang,Jinhai Mo,Wenjing Lin,Xiaofeng Lin,Yingjuan Sun,Guobin Yi
出处
期刊:Composites Part B-engineering [Elsevier BV]
卷期号:282: 111551-111551 被引量:3
标识
DOI:10.1016/j.compositesb.2024.111551
摘要

The research on composite materials with rainbow color (structural color) and ultraviolet excitation characteristics (fluorescence) is the development direction of the new generation of functional photonic engineering materials. Herein, composite materials composed of hollow SiO2 photonic crystals (PCs) with nanometer thickness and PEGDA gel containing graphene quantum dots (GQDs) were prepared to achieve fluorescence regulation effect and thus apply in multi-level intelligent anti-counterfeiting. Due to the SiO2 shell thickness of 20-41 nm, the Bragg diffraction law explained that the material underwent secondary refraction, resulting in a wide photonic band gap (PBG). On the other hand, due to the comparison of refractive index between air (n=1) and composite material (n=1.46), the transmittance of the composite materials were only 21% -26%, indicating strong refractive ability. Therefore, we constructed a PC structure with a wide photonic bandgap (PBG) to provide better wavelength selectivity and coverage range, which would significantly increase the effect of structural color on fluorescence. Based on the unique quantum dot size effect of GQDs, we also investigated the fluorescence enhancement effect with 157 nm FWHM located on PC materials. Therefore, artificial design and control of both fluorescence enhancement and fluorescence suppression had been achieved through multi-level regulation of structural color. We further utilized these properties to create multi-level anti-counterfeiting verification patterns, such as a 3×3 digital encoding matrix. The authenticity of the product information must be verified through stepwise identification under specified conditions. This intelligent anti-counterfeiting technology offers a novel approach to safeguard information security.

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