基于二酮吡咯并吡咯的比率型/开启型荧光化学传感器，通过聚集诱导发光机制用于近红外区域柠檬酸盐的检测

Diketopyrrolopyrrole-Based Ratiometric/Turn-on Fluorescent Chemosensors for Citrate Detection in the Near-Infrared Region by an Aggregation-Induced Emission Mechanism.

作者信息

Hang Yandi, Wang Jian, Jiang Tao, Lu Niannian, Hua Jianli

机构信息

Key Laboratory for Advanced Materials & Institute of Fine Chemicals, East China University of Science and Technology , 130 Meilong Road, Shanghai 200237, P. R. China.

出版信息

Anal Chem. 2016 Feb 2;88(3):1696-703. doi: 10.1021/acs.analchem.5b03715. Epub 2016 Jan 19.

DOI:10.1021/acs.analchem.5b03715

PMID:26745355

Abstract

This work reports two new diketoprrrolopyrrole-based fluorescent chemosensors (DPP-Py1 and DPP-Py2) using symmetrical diamides as recognition groups for selective and fast detection of citrate in the near-infrared region. To our delight, DPP-Py1 is a ratiometric sensor, whereas DPP-Py2 is a turn-on fluorescent sensor. It is worth noting that DPP-Py1 has higher accuracy and sensitivity with a relatively lower detection limit (1.8 × 10(-7) M) and better stability in different pH buffers than DPP-Py2. Scanning electron microscopy, dynamic light scattering analyses, (1)H NMR titration, and 2D-NOESY NMR suggested that the fluorescence increment of the probes DPP-Py1 and DPP-Py2 for citrate could probably originate from aggregation-induced emission (AIE) on the basis of the complexation of the pyridinium-based symmetrical diamides, DPPs, with carboxyl anions of citrate. Our work may provide a simpler and faster means for qualitative and quantitative analysis of citrate through an AIE mechanism.

摘要

这项工作报道了两种基于二酮吡咯并吡咯的新型荧光化学传感器（DPP-Py1和DPP-Py2），它们使用对称二酰胺作为识别基团，用于在近红外区域选择性快速检测柠檬酸盐。令我们高兴的是，DPP-Py1是一种比率型传感器，而DPP-Py2是一种开启型荧光传感器。值得注意的是，DPP-Py1具有更高的准确性和灵敏度，检测限相对较低（1.8×10⁻⁷ M），并且在不同pH缓冲液中的稳定性比DPP-Py2更好。扫描电子显微镜、动态光散射分析、¹H NMR滴定和二维NOESY NMR表明，探针DPP-Py1和DPP-Py2对柠檬酸盐的荧光增强可能源于基于吡啶基对称二酰胺（DPPs）与柠檬酸盐羧基阴离子络合的聚集诱导发光（AIE）。我们的工作可能为通过AIE机制对柠檬酸盐进行定性和定量分析提供一种更简单、快速的方法。

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基于二酮吡咯并吡咯的比率型/开启型荧光化学传感器，通过聚集诱导发光机制用于近红外区域柠檬酸盐的检测

Diketopyrrolopyrrole-Based Ratiometric/Turn-on Fluorescent Chemosensors for Citrate Detection in the Near-Infrared Region by an Aggregation-Induced Emission Mechanism.

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