Two near-infrared fluorescent probes based on dicyanoisfluorone for rapid monitoring of Zn2+ and Pb2+

IF 2.4 3区 化学 Q3 CHEMISTRY, ANALYTICAL
Jia Li, Cuiping Zhou, Hong Yang, Xiongzhi Wu, Liqiang Yan
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引用次数: 4

Abstract

Zinc (Zn2+) and lead (Pb2+) ions in the environment have important effects on human health and environmental safety. Therefore, it is necessary to effectively detect them by a convenient and reliable analysis method. In this study, two near-infrared fluorescent probes for the fast determination of Zn2+ and Pb2+ were synthesized by a simple Schiff base reaction between the dicyanoisophorone skeleton and carbohydrazide derivatives. Among them, the probe with the thiophene-2-carbohydrazide group showed a selective fluorescence response to Zn2+ and Pb2+ with a maximum emission wavelength of 670 nm. And the detection limits of the probe for Zn2+ and Pb2+ were 1.59 nM and 1.65 nM, respectively. In contrast the probe modified by the furan-2-carbohydrazide group achieved quantitative detection of Zn2+, with a detection limit of 2.7 nM. These results were attributed to the fact that the probes bind to Zn2+ and Pb2+ in stoichiometric ratios of 1:1, blocking the intramolecular PET effect. Furthermore, these two probes can be recycled through the action of EDTA and have been successfully used to detect Zn2+ and Pb2+ in real water samples.
基于二氰芴酮的两种近红外荧光探针快速监测Zn2+和Pb2+
环境中的锌(Zn2+)和铅(Pb2+)离子对人类健康和环境安全具有重要影响。因此,有必要通过一种方便可靠的分析方法来有效地检测它们。本研究通过二氰基槐酮骨架与碳酰肼衍生物之间的简单席夫碱反应,合成了两种用于快速测定Zn2+和Pb2+的近红外荧光探针。其中,具有噻吩-2-碳酰肼基团的探针对Zn2+和Pb2+表现出选择性荧光响应,最大发射波长为670nm。探针对Zn2+和Pb2+的检测限分别为1.59nM和1.65nM。相反,由呋喃-2-碳酰肼基团修饰的探针实现了Zn2+的定量检测,检测极限为2.7nM。这些结果归因于探针以1:1的化学计量比与Zn2+和Pb2+结合,阻断了分子内PET效应。此外,这两种探针可以通过EDTA的作用回收,并已成功用于检测真实水样中的Zn2+和Pb2+。
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来源期刊
Methods and Applications in Fluorescence
Methods and Applications in Fluorescence CHEMISTRY, ANALYTICALCHEMISTRY, PHYSICAL&n-CHEMISTRY, PHYSICAL
CiteScore
6.20
自引率
3.10%
发文量
60
期刊介绍: Methods and Applications in Fluorescence focuses on new developments in fluorescence spectroscopy, imaging, microscopy, fluorescent probes, labels and (nano)materials. It will feature both methods and advanced (bio)applications and accepts original research articles, reviews and technical notes.
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