一种作为铝离子“开启”荧光传感器的色酮衍生席夫碱配体：合成与光谱性质

A Chromone-Derived Schiff-Base Ligand as Al(3+) "Turn on" Fluorescent Sensor: Synthesis and Spectroscopic Properties.

作者信息

Li Chao-rui, Qin Jing-can, Wang Bao-dui, Fan Long, Yan Jun, Yang Zheng-yin

机构信息

College of Chemistry and Chemical Engineering, State Key Laboratory of Applied Organic Chemistry, Lanzhou University, Lanzhou, 730000, People's Republic of China.

出版信息

J Fluoresc. 2016 Jan;26(1):345-53. doi: 10.1007/s10895-015-1720-0. Epub 2015 Nov 6.

DOI:10.1007/s10895-015-1720-0

PMID:26545355

Abstract

In this study, a novel chromone-derived Schiff-base ligand called 6-Hydroxy-3-formylchromone (2'-furan formyl) hydrazone (HCFH) has been designed and synthesized as a "turn on" fluorescent sensor for Al(3+). This sensor HCFH showed high selectivity and sensitivity towards Al(3+) over other metal ions investigated, and most metal ions had nearly no influences on the fluorescence response of HCFH to Al(3+). Additionally, the significant enhancement by about 171-fold in fluorescence emission intensity at 502 nm was observed in the presence of Al(3+) in ethanol, and it was due to the chelation-enhanced fluorescence (CHEF) effect upon complexation of HCFH with Al(3+) which inhibited the photoinduced electron transfer (PET) phenomenon from the Schiff-base nitrogen atom to chromone group. Moreover, this sensor formed a 1 : 1 complex with Al(3+) and the fluorescence response of HCFH to Al(3+) was nearly completed within 1 min. Thus, this sensor HCFH could be used to detect and recognize Al(3+) for real-time detection.

摘要

在本研究中，一种新型的色酮衍生席夫碱配体，即6-羟基-3-甲酰基色酮（2'-呋喃甲酰基）腙（HCFH）被设计并合成出来，作为一种用于铝离子（Al(3+)）的“开启型”荧光传感器。该传感器HCFH对Al(3+)表现出相较于其他所研究金属离子的高选择性和高灵敏度，并且大多数金属离子对HCFH对Al(3+)的荧光响应几乎没有影响。此外，在乙醇中存在Al(3+)的情况下，观察到在502 nm处荧光发射强度显著增强约171倍，这是由于HCFH与Al(3+)络合时的螯合增强荧光（CHEF）效应抑制了从席夫碱氮原子到色酮基团的光诱导电子转移（PET）现象。而且，该传感器与Al(3+)形成1 : 1的络合物，HCFH对Al(3+)的荧光响应在1分钟内几乎完成。因此，这种传感器HCFH可用于实时检测和识别Al(3+)。

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一种作为铝离子“开启”荧光传感器的色酮衍生席夫碱配体：合成与光谱性质

A Chromone-Derived Schiff-Base Ligand as Al(3+) "Turn on" Fluorescent Sensor: Synthesis and Spectroscopic Properties.

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