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一种用于在二甲基亚砜 - 水体系中区分重金属阳离子和阴离子的多比色探针,对铜离子和氰根离子具有高选择性:逻辑功能研究及其在实际样品中的应用。

A multi-colorimetric probe to discriminate between heavy metal cations and anions in DMSO-HO with high selectivity for Cu and CN: study of logic functions and its application in real samples.

作者信息

Hamukwaya Eunike, Naimhwaka Johannes, Uahengo Veikko

机构信息

Department of Chemistry and Biochemistry, University of Namibia 340 Mandume Ndemufayo Avenue Windhoek 9000 Namibia

出版信息

RSC Adv. 2021 Sep 2;11(47):29466-29485. doi: 10.1039/d1ra04734e. eCollection 2021 Sep 1.

DOI:10.1039/d1ra04734e
PMID:35479545
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9040645/
Abstract

A ditopic multi-colorimetric probe based on the phenylpridyl-thioic moiety (EN) was synthesized a Schiff base reaction mechanism and characterized using H NMR and UV-vis spectroscopy. The colorimetric analyses carried out revealed that EN was capable of discriminating between a number of heavy metal cations coordination induced charge transfer, as well as between anions through hydrogen bonding induced charge transfer, in DMSO-HO (9 : 1). In particular, the ditopic probe could spectrally and colorimetrically recognize the most toxic heavy metal cations of Cd, Pb and Hg, among others, in DMSO-HO. Additionally, EN was selective and sensitive to the presence of CN, F, AcO and HPO in the same solvent system as cations. The reversibility and reproducibility studies showed that EN exhibited complementary IMP/INH logic functions, based on colour and spectral switching (ON/OFF), modulated by F/Al. The real time application of the probe was tested on food grade products to detect the presence of F in toothpastes and mouthwash dissolved in water, as well as cations in underground water (normally saline), which displayed substantial responses. Thus, EN displayed an excellent scope of response and can thus be developed for real time sensing kits, which could be used instantly in on-field analysis. Theoretical studies were conducted to complement the experimental work.

摘要

基于苯基吡啶基硫代部分(EN)合成了一种双位点多比色探针,其通过席夫碱反应机理合成,并使用核磁共振氢谱和紫外可见光谱进行了表征。进行的比色分析表明,在二甲基亚砜-水(9∶1)体系中,EN能够通过配位诱导电荷转移区分多种重金属阳离子,也能够通过氢键诱导电荷转移区分阴离子。特别是,该双位点探针能够在二甲基亚砜-水体系中通过光谱和比色法识别镉、铅和汞等毒性最强的重金属阳离子。此外,在与阳离子相同的溶剂体系中,EN对氰根、氟离子、醋酸根和磷酸氢根的存在具有选择性和敏感性。可逆性和重现性研究表明,基于颜色和光谱切换(开/关),EN表现出由氟离子/铝离子调制的互补IMP/INH逻辑功能。该探针的实时应用在食品级产品上进行了测试,以检测溶解在水中的牙膏和漱口水中氟的存在,以及地下水中(通常为盐水)阳离子的存在,这些测试均显示出显著的响应。因此,EN显示出优异的响应范围,因此可以开发用于实时传感试剂盒,可立即用于现场分析。进行了理论研究以补充实验工作。

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