材料科学
发光
纳米技术
金属有机骨架
光电子学
量子点
纳米颗粒
荧光
制作
基质(水族馆)
作者
Xiaoyang Zhu,Xiao Liu,Huimin Zhuo,Bin Liang,Zhiqiang Li
标识
DOI:10.1021/acsami.6c01697
摘要
Among numerous crystalline porous materials, hydrogen-bonded organic frameworks (HOFs) have emerged as promising platforms for luminescent sensing due to their structural tunability, porosity, and diverse functional sites. By anchoring lanthanide (Ln3+) ions into HOFs, the resulting Ln3+-anchored HOFs (Ln@HOFs) synergistically combine the exceptional photophysical properties of Ln3+ ions (e.g., sharp emissions, long lifetimes, and large Stokes shifts) with the flexible design of HOFs, enabling highly sensitive and selective sensing. This review systematically summarizes recent advances in the construction strategies, as well as their groundbreaking applications in sensing of environmental pollutants, biomarkers, antibiotics, food additives, volatile organic compounds, temperature, etc. Although considerable progress has been made, Ln@HOFs still face challenges in optimizing stability, enhancing interference resistance, and achieving scalable synthesis. Future research should pursue multifunctional integration and sustainable material design, which are key to establishing Ln@HOFs as transformative technologies for environmental monitoring, healthcare diagnostics, and industrial safety.
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