Electrochemical sensor for ascorbic acid based on zinc oxide nanostructures

IF 0.2 Q4 PHYSICS, MULTIDISCIPLINARY
Zh.U. Paltusheva
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Abstract

Nanostructured semiconductor ZnO and ZnO-GO samples were synthesized at room temperature by chemical bath deposition technique. In this work, the electrochemical non-enzymatic determination of ascorbic acid was studied using the grown nanostructures deposited on a glassy carbon electrode. The morphology and structural properties of the synthesized nanostructured materials were analyzed using a scanning electron microscope and an X-ray diffractometer. The electrochemical properties were studied by the methods of cyclic voltammetry using a single-channel potentiostat-galvanostat. The sensitivity of the obtained electrodes was calculated based on concentrations of ascorbic acid in phosphate buffer solution from 0.3 mM to 3 mM at various scanning speeds. Thus, it was found that the sensitivity of the ZnO-GO sample is lower than that of the ZnO sample, which may be due to the dielectric properties of graphene oxide. However, after annealing in the atmosphere, the sensitivity of the ZnO-GO sample increased, which is associated with a decrease in defects in the sample and an increase in the specific surface area of the samples. As a result of the research, a modified ZnO-GO/GCE electrode with a high sensitivity of 386 μAM-1cm-2 was created, which is promising for use as the basis of a biosensor for determining the level of vitamin C in blood, food, and drugs.
基于氧化锌纳米结构的抗坏血酸电化学传感器
采用化学浴沉积法在室温下合成了纳米结构的半导体ZnO和ZnO- go样品。本文研究了沉积在玻碳电极上的纳米结构对抗坏血酸的电化学非酶测定。利用扫描电子显微镜和x射线衍射仪对合成的纳米结构材料的形貌和结构特性进行了分析。采用单通道恒电位恒流器循环伏安法研究了其电化学性能。在不同的扫描速度下,根据磷酸盐缓冲溶液中抗坏血酸的浓度从0.3 mM到3 mM,计算所得电极的灵敏度。因此,我们发现ZnO- go样品的灵敏度低于ZnO样品,这可能是由于氧化石墨烯的介电性质。然而,在大气中退火后,ZnO-GO样品的灵敏度增加,这与样品中缺陷的减少和样品的比表面积的增加有关。通过此次研究,制备出了灵敏度高达386 μAM-1cm-2的ZnO-GO/GCE修饰电极,有望作为测定血液、食品、药品中维生素C含量的生物传感器的基础。
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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