芘-邻香兰素类Cu(II)荧光传感器的制备及其性能
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Preparation and properties of pyrene-o-vanillin Cu(II) fluorescence sensor
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    摘要:

    采用芘为荧光基团、肼为连接臂,根据席夫碱反应,制备芘-邻香兰素类Cu(II)荧光传感器(TM),其结构经熔点、1HNMR、13CNMR、IR、MS和元素分析表征。TM在乙腈体系中对Cu(II)有很好的紫外、荧光和比色响应,响应时间为12 min,不受其他金属离子干扰且对Cu(II)的识别可视、可逆。通过荧光滴定法计算出TM对Cu(II)的检出限为0.48 μmol/L。TM具有桔黄色的固体荧光,但其乙腈溶液荧光很弱,通过对比加水或Cu(II)的荧光强度,结合紫外和荧光滴定以及量子化学计算,探讨了TM的聚集诱导发光(AIE)识别机理。TM可用于自来水中Cu(II)的检测,回收率为91.2%~107.3%,相对误差为6.3%~8.8%。高选择性和对Cu(II)的快速响应使TM有望成为新的AIE型荧光传感器,用于实际样品中Cu(II)的检测。

    Abstract:

    According to schiff base reaction, a novel pyrene-o-vanillin Cu(II) fluorescence sensor TM was prepared with pyrene as fluorophore and hydrazine as linker. Its structure was characterized by melting point, 1H NMR, 13CNMR, IR, MS and elemental analysis. Sensor TM had good UV, fluorescence and colorimetric response to Cu(II) in acetonitrile system, and the response time was 12 min. It is not interfered by other metal ions, and can recognize Cu(II) visually and reversibly. The detection limit of TM to Cu(II) was calculated to be 0.48 μmol/L according to the fluorescence titration. Sensor TM had orange solid fluorescence, but its fluorescence in acetonitrile solution was very weak. By comparing the fluorescence intensity after adding water or Cu(II), the aggregation-induced emission (AIE) recognition mechanism of TM was discussed with the aid of UV and fluorescence titration as well as quantum chemical calculation. Sensor TM could be used for detecting Cu(II) in tap water with a recovery of 91.2%~107.3% and relative error of 6.3%~8.8%. High selectivity and rapid response to Cu(II) should make TM as a new AIE-type fluorescence sensor for the detection of Cu (II) in actual samples.

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刘媛媛,张景意,潘学春,李壹.芘-邻香兰素类Cu(II)荧光传感器的制备及其性能[J].精细化工,2020,37(9):0

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  • 收稿日期:2020-03-04
  • 最后修改日期:2020-05-07
  • 录用日期:2020-05-11
  • 在线发布日期: 2020-06-30
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