An Olefin‐based, Fluorescent Covalent Organic Framework for Selective Sensing of Aromatic Amines

Owing to various chemical structures and different basicity of amines, a fluorescent probe that could distinguish aromatic and aliphatic amines is highly desirable for practical applications. Herein, an olefin‐based, fluorescent COF (COF−Py−AN) with unique π‐electron deficient groups was synthesized...

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Veröffentlicht in:	Chemistry, an Asian journal an Asian journal, 2022-07, Vol.17 (13), p.e202200279-n/a
Hauptverfasser:	Li, Lihua, Ma, Yinghu, Yang, Haohao, Niu, Jing, Yang, Haoran, Wang, Faqiang, Hu, Chengxian, Zhang, Yubao, Guan, Xiaolin, Peng, Hui, Ma, Guofu
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Sprache:	eng
Schlagworte:	Aliphatic amines Aniline Aromatic amines Basicity Chemistry Covalent Organic Framework Density functional theory Electron transfer Fluorescence sensing Fluorescent indicators photo-induced electron transfer (PET) Selective Sensing Selectivity
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container_title	Chemistry, an Asian journal
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creator	Li, Lihua Ma, Yinghu Yang, Haohao Niu, Jing Yang, Haoran Wang, Faqiang Hu, Chengxian Zhang, Yubao Guan, Xiaolin Peng, Hui Ma, Guofu
description	Owing to various chemical structures and different basicity of amines, a fluorescent probe that could distinguish aromatic and aliphatic amines is highly desirable for practical applications. Herein, an olefin‐based, fluorescent COF (COF−Py−AN) with unique π‐electron deficient groups was synthesized, which was a functionalized platform to realize sensing of π electron‐rich aromatic amines. COF−Py−AN displayed fluorescence quenching in the presence of aromatic amines like aniline, with excellent selectivity against a variety of aromatic molecules, and the detection limit of COF−Py−AN toward aniline was as low as 1.29 μM. More importantly, COF−Py−AN could realize discriminating between aromatic and aliphatic amines. Furthermore, density functional theory calculations showed that the photoinduced electron transfer mechanism contributes to fluorescence sensing. This is the first example of olefin‐based fluorescent COF materials for selective sensing of aromatic amines. COF materials for selective sensing of aromatic amines are reported. COF−Py−AN enables discriminating sensing of aromatic and aliphatic amines. DFT calculations show that the PET mechanism contributes to fluorescence quenching.
doi_str_mv	10.1002/asia.202200279
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Herein, an olefin‐based, fluorescent COF (COF−Py−AN) with unique π‐electron deficient groups was synthesized, which was a functionalized platform to realize sensing of π electron‐rich aromatic amines. COF−Py−AN displayed fluorescence quenching in the presence of aromatic amines like aniline, with excellent selectivity against a variety of aromatic molecules, and the detection limit of COF−Py−AN toward aniline was as low as 1.29 μM. More importantly, COF−Py−AN could realize discriminating between aromatic and aliphatic amines. Furthermore, density functional theory calculations showed that the photoinduced electron transfer mechanism contributes to fluorescence sensing. This is the first example of olefin‐based fluorescent COF materials for selective sensing of aromatic amines. COF materials for selective sensing of aromatic amines are reported. COF−Py−AN enables discriminating sensing of aromatic and aliphatic amines. 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subjects	Aliphatic amines Aniline Aromatic amines Basicity Chemistry Covalent Organic Framework Density functional theory Electron transfer Fluorescence sensing Fluorescent indicators photo-induced electron transfer (PET) Selective Sensing Selectivity
title	An Olefin‐based, Fluorescent Covalent Organic Framework for Selective Sensing of Aromatic Amines
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