Synthesis of a novel N-fused ring based organic molecule probe and its detection of iron

Synthesis of a novel N-fused ring based organic molecule probe and its detection of iron

[Display omitted] •Simple N-fused ring based probe for detection of Fe2+/Fe3+ in aqueous medium.•Probe can visualize the detection of Fe2+/Fe3+ with a limit of detection of 10−7 M.•Probe shows a fast response to Fe2+/Fe3+ (≤10 s).•Probe can be made into portable test strips to realize the detection...

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Bibliographic Details
Published in:Inorganic chemistry communications Vol. 163; p. 112381
Main Authors: Chen, Zhao-Hua, Chen, Zu-Jia, Li, Wen-Xi, Zeng, Yu, Lin, Jia-Qi, Tao, Guan-Sen, Wang, Zhao-Yang
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2024
Subjects:
Fast response
Fluorescent probe
Iron ion
N-fused ring
Test strips
N-fused ring
Iron ion
Test strips
Fast response
Fluorescent probe
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Summary:[Display omitted] •Simple N-fused ring based probe for detection of Fe2+/Fe3+ in aqueous medium.•Probe can visualize the detection of Fe2+/Fe3+ with a limit of detection of 10−7 M.•Probe shows a fast response to Fe2+/Fe3+ (≤10 s).•Probe can be made into portable test strips to realize the detection of Fe2+/Fe3+. In this work, a simple one-step reaction was used to obtain a novel N-fused ring based compound 3. According to the UV–vis absorbance, fluorescence spectra tests, compound 3 has a good selectivity to the detection of Fe2+ and Fe3+, thus it can be further developed into the probe of Fe2+ and Fe3+. After the addition of Fe2+ and Fe3+, the 3 solution (1,4-Dioxane/H2O, v/v = 9:1) is turned yellow and its fluorescence is decreased. Based on the results of Job's plot and HRMS spectra, the possible sensing mechanism is proposed as the formation of complexes. As calculated, the limit of detection of 3 on Fe2+ is 0.203 µM while on Fe3+ is 0.331 µM. Noteworthily, probe 3 can response quickly (within 10 s) to Fe2+ and Fe3+. In addition, probe 3 can be further processed into portable test strips for visual identification of Fe2+ and Fe3+.
ISSN:1387-7003
1879-0259
DOI:10.1016/j.inoche.2024.112381