A Novel Mn‐MOF Sensitive Detection of Antibiotic Difloxacin Hydrochloride in Water

Antibiotic pollution in hydrophytic ecosystems has aroused widespread notice due to its adverse impact on both the ecological environment and human physical well‐being. Thus, the development of effective antibiotic detection materials is not only urgently needed but is also challenging. Herein, the...

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Veröffentlicht in:	Applied organometallic chemistry 2024-11
Hauptverfasser:	Wang, Xiaomei, Pan, Jiajun, Quan, Yue, Liu, Lanqing, Yang, Tao, Zhou, Xinhui, You, Yujian, Xiao, Hongping
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creator	Wang, Xiaomei Pan, Jiajun Quan, Yue Liu, Lanqing Yang, Tao Zhou, Xinhui You, Yujian Xiao, Hongping
description	Antibiotic pollution in hydrophytic ecosystems has aroused widespread notice due to its adverse impact on both the ecological environment and human physical well‐being. Thus, the development of effective antibiotic detection materials is not only urgently needed but is also challenging. Herein, the luminescent metal–organic framework [Mn 3/2 (HBCTC)·5H 2 O] ( 1 ) was successfully synthesized based on [9,9′‐bicarbazole]‐3,3′,6,6′‐tetracarboxylic acid (H 4 BCTC) under solvothermal conditions. Compound 1 can be employed as a fluorescent probe to detect antibiotic difloxacin hydrochloride (DIF) in water, demonstrating a remarkable linear relationship between fluorescence intensity ratio I 0 / I and the concentration of DIF (0–40 μM), with K sv of 79,405 M −1 and LOD of 114 nM. More importantly, 1 represents the first fluorescent sensing material based on MOF for the detection of DIF, exhibiting exceptional selectivity, sensitivity, and anti‐interference capability. Furthermore, the mechanism of fluorescence quenching was studied comprehensively.
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title	A Novel Mn‐MOF Sensitive Detection of Antibiotic Difloxacin Hydrochloride in Water
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