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基于β-环糊精-金@3,4,9,10-苝四羧酸功能化单壁碳纳米角的高灵敏度电化学传感器用于同时测定杨梅素和芦丁。

Highly sensitive electrochemical sensor based on β-cyclodextrin-gold@3, 4, 9, 10-perylene tetracarboxylic acid functionalized single-walled carbon nanohorns for simultaneous determination of myricetin and rutin.

机构信息

School of Chemical Science and Technology, Yunnan University, Kunming 650091, PR China.

Laboratory for Conservation and Utilization of Bio-resource, Yunnan University, Kunming 650091, PR China.

出版信息

Anal Chim Acta. 2015 Sep 10;892:85-94. doi: 10.1016/j.aca.2015.08.046. Epub 2015 Sep 1.

DOI:10.1016/j.aca.2015.08.046
PMID:26388478
Abstract

The application of macrocyclic hosts for construction of different electrochemical devices and separation matrices has attracted much attentions due to their benign biocompatibility and simplicity of synthesis. Myricetin and rutin are considered two of the most bioactive flavonoids, which have been proved to exhibit various physiological functions. This work reports a simple and facile approach for the synthesis of β-cyclodextrin-gold@3, 4, 9, 10-perylene tetracarboxylic acid functionalized single-walled carbon nanohorns (β-CD-Au@PTCA-SWCNHs) nanohybrids. The simultaneous electrochemical determination of myricetin and rutin using a β-CD-Au@PTCA-SWCNHs-modified glassy carbon electrode was established. The results show that the β-CD-Au@PTCA-SWCNHs-modified electrode displayed electrochemical signal superior to those of Au@PTCA-;SWCNHs and SWCNHs towards myricetin and rutin. The proposed modified electrode has a linear response range of 0.01-10.00 μM both for myricetin and rutin with relatively low detection limits of 0.0038 μM for myricetin and 0.0044 μM (S/N = 3) for rutin, respectively. The excellent performance of the sensing platform is considered to be the synergic effects of the SWCNHs (e.g. their good electrochemical properties and large surface area) and β-CD (e.g. a hydrophilic external surface, a high supramolecular recognition, and a good enrichment capability).

摘要

由于大环主体具有良好的生物相容性和合成简单性,因此将其应用于构建不同的电化学器件和分离基质吸引了广泛关注。杨梅素和芦丁被认为是两种最具生物活性的类黄酮,已被证明具有多种生理功能。本工作报道了一种简便的方法,用于合成β-环糊精-金@3,4,9,10-苝四羧酸功能化单壁碳纳米角(β-CD-Au@PTCA-SWCNHs)纳米杂化物。建立了使用β-CD-Au@PTCA-SWCNHs 修饰的玻碳电极同时电化学测定杨梅素和芦丁的方法。结果表明,与 Au@PTCA-SWCNHs 和 SWCNHs 相比,β-CD-Au@PTCA-SWCNHs 修饰电极对杨梅素和芦丁表现出电化学信号更优。所提出的修饰电极对杨梅素和芦丁均具有 0.01-10.00 μM 的线性响应范围,检测限分别为 0.0038 μM(S/N = 3)和 0.0044 μM(S/N = 3)。该传感平台的优异性能被认为是 SWCNHs(例如,其良好的电化学性质和大的表面积)和β-CD(例如,亲水的外部表面、高超分子识别和良好的富集能力)的协同效应。

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