Development of Electrochemical Sensor for Homocysteine Determination as a Cerebrovascular Disease Biomarker

Jibo Zhao; Ping Du; Xingyuan Sun; Hongbin Liu

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Development of Electrochemical Sensor for Homocysteine Determination as a Cerebrovascular Disease Biomarker

机译：测定同型半胱氨酸作为脑血管疾病生物标志物的电化学传感器的开发

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This work proposed the glassy carbon electrodes (GCE) based on reduced graphene oxide-TiO2 (RGO- TiO2) nanocomposite to realize sensitive homocysteine (Hcy) detection. The RGO-TiO2 exhibits a remarkable electrocatalytic activity to Hcy oxidation at a low potential, as indicated in cyclic voltammetric (CV) results. The RGO-TiO2-based GCE has also been found highly stable and reproducible. Furthermore, it is strongly resistant to electrode fouling. In addition to these analytical features, it requires low operation potential. Therefore the proposed RGO-TiO2-based GCE could reliably and sensitively detect Hcy, with a limit of detection (LOD) of 24 nM (S/N=3) and a desirable dynamic linearity (80 μM).

机译：这项工作提出了基于还原型氧化石墨烯-TiO2（RGO-TiO2）纳米复合材料的玻璃碳电极（GCE），以实现灵敏的同型半胱氨酸（Hcy）检测。如循环伏安（CV）结果所示，RGO-TiO2在低电势下对Hcy氧化表现出显着的电催化活性。还发现基于RGO-TiO2的GCE具有高度的稳定性和可重复性。此外，它具有极强的抗电极结垢性。除了这些分析功能外，它还要求低操作潜力。因此，所提出的基于RGO-TiO2的GCE可以可靠且灵敏地检测Hcy，检测限（LOD）为24 nM（S / N = 3），并且具有理想的动态线性（80μM）。

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《International Journal of Electrochemical Science》 |2017年第9期|共9页
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Jibo Zhao; Ping Du; Xingyuan Sun; Hongbin Liu;
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Development of Electrochemical Sensor for Homocysteine Determination as a Cerebrovascular Disease Biomarker

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