An Electrochemical Sensor Based on 3D Graphene‐Cyclodextrin Nanohybrid for Enhanced Sensitivity Detection of Nitroaromatic Compounds

IF 2.7 3区化学 Q2 CHEMISTRY, ANALYTICAL

Electroanalysis Pub Date : 2024-08-27 DOI:10.1002/elan.202400272

Ziao Di, Yu Zhang, Zuhang Ding, Jiayu Huang, Lujia Mao, Hongjun Wei, Jin Zhao

引用次数: 0

Abstract

This study presents an electrochemical sensor for sensitive detection of nitroaromatic compounds using a three‐dimensional (3D) porous graphene with polyoxypropylene supported reduced graphene oxide (PEA‐RGO) and embedded β‐cyclodextrins (β‐CD). First, PEA‐RGO was synthesized by the condensation reaction between graphene oxide (GO) and amino‐terminated polyoxypropylene (PEA), followed by hydrazine hydrate reduction. Then, β‐CD was embedded into the porous of the above 3D graphene to obtain PEA‐RGO/β‐CD nanohybrid. Various characterization techniques, such as microscopy imaging, infrared spectrometry, thermal analysis and electrochemical measurements, were employed to confirm the successful synthesis and unique 3D architecture structure of PEA‐RGO/β‐CD. Afterwards

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基于三维石墨烯-环糊精纳米杂化技术的电化学传感器，用于提高硝基芳香族化合物的检测灵敏度

本研究利用聚氧丙烯支撑的还原型氧化石墨烯（PEA-RGO）和嵌入式β-环糊精（β-CD）的三维（3D）多孔石墨烯，提出了一种用于灵敏检测硝基芳香族化合物的电化学传感器。首先，通过氧化石墨烯（GO）与氨基端聚氧丙烯（PEA）的缩合反应合成 PEA-RGO，然后进行水合肼还原。然后，β-CD 被嵌入上述三维石墨烯的多孔中，得到 PEA-RGO/β-CD 纳米杂化物。通过显微成像、红外光谱、热分析和电化学测量等多种表征技术，证实了 PEA-RGO/β-CD 的成功合成和独特的三维结构。之后

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来源期刊

Electroanalysis 化学-电化学

CiteScore

6.00

自引率

3.30%

发文量

222

审稿时长

2.4 months

期刊介绍： Electroanalysis is an international, peer-reviewed journal covering all branches of electroanalytical chemistry, including both fundamental and application papers as well as reviews dealing with new electrochemical sensors and biosensors, nanobioelectronics devices, analytical voltammetry, potentiometry, new electrochemical detection schemes based on novel nanomaterials, fuel cells and biofuel cells, and important practical applications. Serving as a vital communication link between the research labs and the field, Electroanalysis helps you to quickly adapt the latest innovations into practical clinical, environmental, food analysis, industrial and energy-related applications. Electroanalysis provides the most comprehensive coverage of the field and is the number one source for information on electroanalytical chemistry, electrochemical sensors and biosensors and fuel/biofuel cells.