摘要/Abstract

摘要 为了有针对性地高选择荧光识别硫化氢(H₂S), 以香豆素为核心组块与三唑并噻二唑芳香稠并杂环拼接,设计合成了3个比率型荧光探针4a~4c, 借助红外光谱(IR)、核磁共振(NMR)和高分辨质谱(HRMS)等对其进行了结构表征. 通过荧光光谱法, 研究发现3个探针均具有优良的荧光性能, 说明探针分子整体结构设计合理, 均表现出较高的荧光量子产率(0.6752, 0.6639, 0.6128)和大的斯托克斯位移(138, 131, 128 nm). 3个探针对H₂S均具有高选择和高灵敏性识别, 其检测限(LOD)分别为0.19, 0.21, 0.25 µmol•L ^–1. 其中4a显示了最优的效果, 说明分子中苯环4位斥电基团的存在使共轭体系电子密度升高, 有利于探针性能的优化. 此外探针与H₂S作用后, 颜色从无色变为深黄色, 可以实现H₂S的“裸眼检测”. 探针4a~4c成功应用于实际水样中H₂S的定性定量检测.
关键词: 硫化氢, 香豆素, 比率型荧光探针
Three triazolothiadiazole-coumarin based ratiometric fluorescent probes (4a~4c) for detection of H₂S were designed and synthesized. Their structures were confirmed by IR, NMR and HRMS. Through fluorescence spectra, the probes expressed excellent fluorescent properties, which indicates that the design of the molecular structure was rational. The three probes all displayed highly quantum yields (0.6752, 0.6639, 0.6128), large Stokes shift (138, 131, 128 nm).They all exhibited high selectivity and sensitivity against H₂S. The limit of detection were 0.19, 0.21 and 0.25 µmol•L ^–1 respectively. Especially, probe 4a has the optimum efficiency,this result shows that the electron-donating group at 4-position of benzene is in favor of the optimization of fluorescent properties, owing to the accretion of electron density of the conjugated system. Besides, the three probes were all able to sense H₂S by “naked-eye” according to the change in color from colorless to deep yellow. The probes can be applied to recognize H ₂S in actual water samples qualitatively and quantitatively.
Key words: hydrogen sulfide, Coumarin, ratiometric fluorescent probe


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