An enhanced electrochemical platform based on graphene-polyoxometalate nanomaterials for sensitive determination of diphenolic compounds

Hongmei Sun; Jing Li; Lehui Lu

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An enhanced electrochemical platform based on graphene-polyoxometalate nanomaterials for sensitive determination of diphenolic compounds

机译：基于石墨烯-多金属氧酸盐纳米材料的增强型电化学平台，用于双酚类化合物的灵敏测定

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An enhanced electrochemical sensing platform based on photoreduced graphene-polyoxometalate (PRG-POM) nanomaterials prepared by UV-assisted photoreduction method was developed for the simultaneous detection of hydroquinone (HQ), catechol (CT), and resorcinol (RS). Taking advantage of the combined benefits of graphene and POMs, these PRG-POMs nanomaterials showed fast electron-transfer kinetics for the Fe(CN)63?/4?redox system and prominent electrocatalytic activity for simultaneously determining the species mentioned above. With this sensing platform, the lowest concentration to quantify CT, HQ, and RS could be down to 40 nM, 50 nM and 90 nM, respectively. Furthermore, real samples including underground water and lake water were analyzed using the present sensing platform, and experimental results demonstrated that this electrochemical sensor exhibited excellent recoveries...

机译：开发了一种基于紫外线辅助光还原法制备的光还原石墨烯-多金属氧酸盐（PRG-POM）纳米材料的增强型电化学传感平台，用于同时检测对苯二酚（HQ），邻苯二酚（CT）和间苯二酚（RS）。利用石墨烯和POM的综合优势，这些PRG-POMs纳米材料对Fe（CN）63？/ 4？氧化还原体系显示出快速的电子转移动力学，并具有出色的电催化活性，可同时测定上述物种。使用该传感平台，定量CT，HQ和RS的最低浓度分别可降至40 nM，50 nM和90 nM。此外，使用该传感平台分析了包括地下水和湖水在内的真实样品，实验结果表明该电化学传感器具有极好的回收率。

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《Analytical methods》 |2011年第7期|共8页
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Hongmei Sun; Jing Li; Lehui Lu;
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中图分类分析化学;
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1. An enhanced electrochemical platform based on graphene-polyoxometalate nanomaterials for sensitive determination of diphenolic compounds [J] . Linyuan Cao, Hongmei Sun, Jing Li Analytical methods . 2011,第7期

机译：基于石墨烯-多金属氧酸盐纳米材料的增强型电化学平台，用于双酚类化合物的灵敏测定
2. Fabrication of a sensitive and selective electrochemical sensing platform based on poly-l-leucine modified sensor for enhanced voltammetric determination of Riboflavin [J] . Monnappa Amrutha Balliamada, Manjunatha Jamballi Gangadharappa Gowda, Bhatt Aarti Sripathi, Journal of Food Measurement and Characterization . 2020,第6期

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5. Highly sensitive nanomaterial based electrochemical biosensor. [D] . Vazquez Alvarez, Terannie. 2009

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An enhanced electrochemical platform based on graphene-polyoxometalate nanomaterials for sensitive determination of diphenolic compounds

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