ZnS and Reduced Graphene Oxide Nanocomposite-Based Non-Enzymatic Biosensor for the Photoelectrochemical Detection of Uric Acid.

IF 4.9 3区 工程技术 Q1 CHEMISTRY, ANALYTICAL
Yao Zhao, Niancai Peng, Weizhuo Gao, Fei Hu, Chuanyu Zhang, Xueyong Wei
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Abstract

In this work, we report a study of a zinc sulfide (ZnS) nanocrystal and reduced graphene oxide (RGO) nanocomposite-based non-enzymatic uric acid biosensor. ZnS nanocrystals with different morphologies were synthesized through a hydrothermal method, and both pure nanocrystals and related ZnS/RGO were characterized with SEM, XRD and an absorption spectrum and resistance test. It was found that compared to ZnS nanoparticles, the ZnS nanoflakes had stronger UV light absorption ability at the wavelength of 280 nm of UV light. The RGO significantly enhanced the electron transfer efficiency of the ZnS nanoflakes, which further led to a better photoelectrochemical property of the ZnS/RGO nanocomposites. The ZnS nanoflake/RGO nanocomposite-based biosensor showed an excellent uric acid detecting sensitivity of 534.5 μA·cm-2·mM-1 in the linear range of 0.01 to 2 mM and a detection limit of 0.048 μM. These results will help to improve non-enzymatic biosensor properties for the rapid and accurate clinical detection of uric acid.

基于 ZnS 和还原石墨烯氧化物纳米复合材料的非酶生物传感器,用于光电化学检测尿酸。
在这项工作中,我们报告了一项基于硫化锌(ZnS)纳米晶体和还原氧化石墨烯(RGO)纳米复合材料的非酶尿酸生物传感器的研究。通过水热法合成了不同形态的硫化锌纳米晶体,并利用扫描电镜、X射线衍射、吸收光谱和电阻测试对纯纳米晶体和相关的硫化锌/还原氧化石墨烯进行了表征。研究发现,与 ZnS 纳米颗粒相比,ZnS 纳米薄片在波长为 280 纳米的紫外光下具有更强的紫外光吸收能力。RGO 明显提高了 ZnS 纳米片的电子传递效率,从而进一步提高了 ZnS/RGO 纳米复合材料的光电化学性能。基于 ZnS 纳米薄片/RGO 纳米复合材料的生物传感器在 0.01 至 2 mM 的线性范围内显示出卓越的尿酸检测灵敏度,达到 534.5 μA-cm-2-mM-1,检测限为 0.048 μM。这些结果将有助于提高非酶生物传感器的性能,从而实现对尿酸的快速、准确的临床检测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biosensors-Basel
Biosensors-Basel Biochemistry, Genetics and Molecular Biology-Clinical Biochemistry
CiteScore
6.60
自引率
14.80%
发文量
983
审稿时长
11 weeks
期刊介绍: Biosensors (ISSN 2079-6374) provides an advanced forum for studies related to the science and technology of biosensors and biosensing. It publishes original research papers, comprehensive reviews and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files and software regarding the full details of the calculation or experimental procedure, if unable to be published in a normal way, can be deposited as supplementary electronic material.
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