基于 1,8-萘二甲酰亚胺的选择性检测铜离子的三足式荧光化学传感器

IF 2.6 4区化学 Q2 BIOCHEMICAL RESEARCH METHODS

Journal of Fluorescence Pub Date : 2024-07-27 DOI:10.1007/s10895-024-03867-7

Erendra Manandhar, Blake O. Day, Ke´shay M. Sampson, Evelyn E. Schroeder, Aimee L. Ninahaza, Samantha T. Aragon, Camille J. Kwan, Franchesca C. Tinacba, Joshua J. Do, Rosanna Jees, Ram S. Bhatta, Peter J. Cragg

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引用次数: 0

摘要

在铜（I）催化下，2-(2-叠氮乙基)-6-吗啉基-1 H-苯并[de]异喹啉-1,3(2 H)-二酮与三丙炔胺发生叠氮-炔环加成反应，合成了一种基于 1,8萘二甲酰亚胺的三重荧光配体（L3）。萘二甲酰亚胺作为荧光体，而三唑和胺的硝基则螯合金属离子。在乙腈水溶液中，L3 对铜（II）的荧光选择性熄灭，而对其他金属离子的荧光选择性熄灭。约伯图、贝内西-希尔德布兰德图和高分辨率质谱数据证实了 1:1 的结合配比，结合常数为 7.8 х105 M- 1，而加入乙二胺四乙酸二钠则证明了其可逆性。复合物的结构和稳定性得到了理论计算的支持。根据计算，铜（II）的检测限为 0.3 µM，大大低于世界卫生组织建议的饮用水中铜（II）的检测限。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

A 1,8-Naphthalimide-based Tripodal Fluorescent Chemosensor to Selectively Detect Copper Ions

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A 1,8-Naphthalimide-based Tripodal Fluorescent Chemosensor to Selectively Detect Copper Ions

A 1,8-naphthalimide-based tripodal fluorescent ligand (L3) was synthesized through the copper (I) catalyzed Huisgen azide-alkyne cycloaddition reaction of 2-(2-azidoethyl)-6-morpholino-1 H-benzo[de]isoquinoline-1,3(2 H)-dione with triproparagylamine. Naphthalimide acts as the fluorophore while the triazole and amine nitrogens chelate the metal ion. L3 showed a selective fluorescence turn-off for Cu(II) over other metal ions in aqueous acetonitrile solution. A Job’s plot, Benesi-Hildbrand plot and high-resolution mass spectrometry data confirm a 1:1 binding stoichiometry with a binding constant of 7.8 х10⁵ M^− 1 while addition of disodium EDTA demonstrates its reversibility. The structure and stability of the complex was supported by theoretical calculations. The limit of detection for Cu(II) was calculated to be 0.3 µM which is considerably lower than WHO recommended Cu(II) limit in drinking water.

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来源期刊

Journal of Fluorescence 化学-分析化学

CiteScore

4.60

自引率

7.40%

发文量

203

审稿时长

5.4 months

期刊介绍： Journal of Fluorescence is an international forum for the publication of peer-reviewed original articles that advance the practice of this established spectroscopic technique. Topics covered include advances in theory/and or data analysis, studies of the photophysics of aromatic molecules, solvent, and environmental effects, development of stationary or time-resolved measurements, advances in fluorescence microscopy, imaging, photobleaching/recovery measurements, and/or phosphorescence for studies of cell biology, chemical biology and the advanced uses of fluorescence in flow cytometry/analysis, immunology, high throughput screening/drug discovery, DNA sequencing/arrays, genomics and proteomics. Typical applications might include studies of macromolecular dynamics and conformation, intracellular chemistry, and gene expression. The journal also publishes papers that describe the synthesis and characterization of new fluorophores, particularly those displaying unique sensitivities and/or optical properties. In addition to original articles, the Journal also publishes reviews, rapid communications, short communications, letters to the editor, topical news articles, and technical and design notes.