用于抗糖尿病药物电化学传感的透明玻璃电极传感器上的石墨烯纳米片

Graphene nanoflakes on transparent glass electrode sensor for electrochemical sensing of anti-diabetic drug.

作者信息

Narang Jagriti, Malhotra Nitesh, Singhal Chaitali, Bhatia Rishabh, Kathuria Vikas, Jain Manan

机构信息

Amity Institute of Nanotechnology (AINT), AMITY University, Noida, 201313, Uttar Pradesh, India.

Amity Institute of Physiotherapy, AMITY University, Noida, 201313, Uttar Pradesh, India.

出版信息

Bioprocess Biosyst Eng. 2017 Apr;40(4):537-548. doi: 10.1007/s00449-016-1719-1. Epub 2016 Dec 19.

DOI:10.1007/s00449-016-1719-1

PMID:27995333

Abstract

Metformin (Mf) plays a major role in controlling insulin level of individuals at risk of developing diabetes mellitus. Overdose of Mf can cause lactic acidosis, diarrhoea, cough, or hoarseness, etc. These particulars point out the identification for selective and sensitive methods of Mf determination. In the present work, graphene nanoflakes-polymethylene blue (GNF-PMB) nano-composites were developed onto fluorine-doped tin oxide (SnO/F) coated glass substrates for electrochemical sensing of Mf using cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS). The developed sensor shows quick response time (10 s), linearity as 10-10 µM, LOD (0.1 nM), and good shelf life (10 weeks). Attempts have been made to utilize this electrode for estimation of Mf in urine samples. Configured as a highly responsive, reproducible Mf sensor, it combines the electrical properties of GNF and stable electron transfer of PMB. The newly developed Mf sensor presents a promising candidate in point-of-care diagnosis.

摘要

二甲双胍（Mf）在控制有患糖尿病风险个体的胰岛素水平方面发挥着重要作用。过量服用Mf会导致乳酸性酸中毒、腹泻、咳嗽或声音嘶哑等。这些情况表明需要鉴定出选择性和灵敏的Mf测定方法。在本工作中，在氟掺杂氧化锡（SnO/F）涂覆的玻璃基板上制备了石墨烯纳米片-聚亚甲基蓝（GNF-PMB）纳米复合材料，用于采用循环伏安法（CV）和电化学阻抗谱（EIS）对Mf进行电化学传感。所开发的传感器显示出快速响应时间（10秒）、线性范围为10 - 10 μM、检测限（0.1 nM）以及良好的保质期（10周）。已尝试利用该电极来估算尿液样本中的Mf。作为一种高响应性、可重现的Mf传感器，它结合了GNF的电学性质和PMB稳定的电子转移。新开发的Mf传感器在即时诊断中展现出了一个有前景的候选方案。

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用于抗糖尿病药物电化学传感的透明玻璃电极传感器上的石墨烯纳米片

Graphene nanoflakes on transparent glass electrode sensor for electrochemical sensing of anti-diabetic drug.

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