理性设计的咪唑衍生物作为比色和荧光传感器，用于实时样品中氰化物离子的选择性、定性和定量检测。

Rationally designed imidazole derivative as colorimetric and fluorometric sensor for selective, qualitative and quantitative cyanide ion detection in real time samples.

机构信息

Centre for Organic and Medicinal Chemistry, School of Advanced Sciences, Vellore Institute of Technology, Vellore 632014, Tamil Nadu, India.

Division of Chemistry, Department of Sciences and Humanities, Vignan's Foundation for Science, Technology and Research University, Vadlamudi, 522 213 Guntur, Andhra Pradesh, India.

出版信息

Spectrochim Acta A Mol Biomol Spectrosc. 2020 Jun 15;234:118212. doi: 10.1016/j.saa.2020.118212. Epub 2020 Mar 12.

DOI:10.1016/j.saa.2020.118212

PMID:32224435

Abstract

A new imidazole derivative of 1,2-diaminoanthraquinone and fluorene-2-carboxaldehyde was designed as a sensor B2 to selectively detect the cyanide (CN) ion through colorimetric and/or fluorometric methods. The photochemical characterizations of sensor B2 were tested using absorption and emission spectral studies in CHCN-HO (8:2) semi-aqueous medium. An excited state proton transfer process (ESIPT) was proved by theoretical and spectral studies. The colorimetric and fluorescence detection limit of CN ion was found to be 5.3 × 10 M and 4.11 × 10 M, respectively. H NMR titration, electrochemical and DFT studies were supported the removal of -NH proton from B2. In order to utilize this sensor in real-time applications, we developed a test cassette which is coated with sensor B2 detected the presence of CN ion in the food sample with endogenous cyanide ion.

摘要

一种新的 1,2-二氨基蒽醌和芴-2-甲醛的咪唑衍生物被设计为传感器 B2，通过比色法和/或荧光法选择性检测氰化物 (CN) 离子。使用在 CHCN-HO（8:2）半水介质中吸收和发射光谱研究测试了传感器 B2 的光化学特性。通过理论和光谱研究证明了激发态质子转移过程（ESIPT）。CN 离子的比色和荧光检测限分别为 5.3×10 -5 M 和 4.11×10 -5 M。1 H NMR 滴定、电化学和 DFT 研究支持 B2 中-NH 质子的去除。为了将该传感器用于实时应用，我们开发了一种测试盒，该测试盒涂有传感器 B2，可检测食品样品中内源性氰化物离子的存在。

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理性设计的咪唑衍生物作为比色和荧光传感器，用于实时样品中氰化物离子的选择性、定性和定量检测。

Rationally designed imidazole derivative as colorimetric and fluorometric sensor for selective, qualitative and quantitative cyanide ion detection in real time samples.

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