期刊
ANALYTICA CHIMICA ACTA
卷 1252, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.aca.2023.341056
关键词
Covalent organic frameworks; Uracil; In-situ modification; Fluorescence; Mercury(II) detection
This study proposes a novel in-situ strategy to construct uracil-conjugated COFs with tunable fluorescence properties for sensitive and selective mercury(II) detection. By changing the molar ratio of precursors, the crystalline structure, fluorescence properties, and sensing performance of COFs can be regulated. This research opens up a new strategy for the effective and controllable construction of functionalized COFs for environmental analysis.
Previous researches of covalent organic frameworks (COFs) have shown their potential as fluorescent probes, but the regulation of their optical properties and recognition characteristics still remains a challenge, and most of reports required complicated post-decoration to improve the sensing performance. In this context, we propose a novel in-situ strategy to construct uracil-conjugated COFs and modulate their fluorescence properties for sen-sitive and selective mercury(II) detection. By using 1,3,6,8-tetrakis(4-formylphenyl)pyrene (TFPPy) and 1,3,6,8-tetrakis(4-aminophenyl)pyrene (TAPPy) as fundamental blocks and 5-aminouraci (5-AU) as the functional monomer, a series of COFs (Py-COFs and Py-U-COFs-1 to Py-U-COFs-5) with tunable fluorescence were sol-vothermally synthesized through an in-situ Schiff base reaction. The pi-conjugated framework serves as a signal reporter, the evenly and densely distributed uracil acts as a mercury(II) receptor, and the regular pores (chan-nels) make the rapid and sensitive detection of the mercury(II) possible. In this research, we manage to regulate the crystalline structure, the fluorescence properties, and the sensing performance of COFs by simply changing the molar ratio of precursors. We expect this research to open up a new strategy for effective and controllable construction of functionalized COFs for environmental analysis.
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