Platinum nanoparticles supported MoS2 nanosheet for simultaneous detection of dopamine and uric acid

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作者：Jie Chao ; Xiaoyan Han ; Haofan Sun ; Shao Su ; Lixing Weng…
关键词：molybdenum disulfide ; platinum nanoparticles ; dopamine ; uric acid
刊名：SCIENCE CHINA Chemistry
出版年：2016
出版时间：March 2016
年：2016
卷：59
期：3
页码：332-337
全文大小：1,317 KB
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作者单位：Jie Chao (1)
Xiaoyan Han (1)
Haofan Sun (1)
Shao Su (1)
Lixing Weng (2)
Lianhui Wang (1)

1. Key Laboratory for Organic Electronics & Information Displays; Institute of Advanced Materials, National Syngerstic Innovation Center for Advanced Materials, Nanjing University of Posts & Telecommunications, Nanjing, 210023, China
2. College of Geography and Biological Information, Nanjing University of Posts and Telecommunications, Nanjing, 210023, China
刊物类别：Chemistry and Materials Science
刊物主题：Chemistry
Chinese Library of Science
Chemistry
出版者：Science China Press, co-published with Springer
ISSN：1869-1870

文摘

Herein, platinum nanoparticles-decorated molybdenum disulfide (PtNPs@MoS₂) nanocomposite has been synthesized via a microwave-assisted hydrothermal method, which was characterized by transmission electron microscopy (TEM) and powder X-ray diffraction (XRD). This MoS₂-based nanocomposite modified glass carbon electrode (PtNPs@MoS₂/GCE) exhibited excellent electrocatalytic activity toward dopamine (DA) and uric acid (UA) due to their synergistic effect. Two well-defined oxidation peaks of DA and UA were obtained at PtNPs@MoS₂/GCE with a large peak separation of 160 mV (DA-UA), suggesting that the modified electrode could individually or simultaneously analyze DA and AA. Under the optimal conditions, the peak currents of DA and UA were linearly dependent on their concentrations in the range of 0.5–150 and 5–1000 µmol/L with detection limit of 0.17 and 0.98 µmol/L, respectively. The proposed MoS₂-based sensor can also be employed to examine DA and UA in real samples with satisfactory results. Therefore, the PtNPs@MoS₂ nanocomposite might offer a good possibility for electrochemical sensing and other electrocatalytic applications.

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