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Hydrothermal synthesis of cobalt germanium oxide supported with carbon-based graphitic carbon nitride for electrochemical determination of ornidazole

微分脉冲伏安法 材料科学 石墨氮化碳 循环伏安法 电化学气体传感器 纳米复合材料 电化学 无机化学 化学 纳米技术 电极 有机化学 光催化 催化作用 冶金 物理化学
作者
Jaysiva Ganesamurthi,X.J. Chen,Ruey‐Shin Juang,Shuangyuan Wei,Da-Yuan Lin
出处
期刊:Journal of Industrial and Engineering Chemistry [Elsevier BV]
卷期号:127: 270-282 被引量:1
标识
DOI:10.1016/j.jiec.2023.07.012
摘要

In recent decades, nitroimidazole derivatives have played an effectual role against bacterial and protozoan infections that can be used as anti-cancer and antibiotic drugs. Ornidazole (ORD) consists of a major 5-imidazole nucleus which complements to first nitro groups, ORD invades into lipid tissue and other nitroimidazole derivatives. The periodic intake of ORD orally causes side effects of headache, nausea, vomiting, and breathing difficulties such effects need potential monitoring and develop essential electrochemical sensing toward ORD. In this study, we developed a ternary cobalt germanium oxide (Co2GeO4) nanoparticle prepared by a facile hydrothermal method and followed by calcination. The carbon-based graphitic carbon nitride (GCN, g-C3N4) nanosheets were therefore supported for electrochemical sensing applications in order to improve the features like the catalytic activity, electrical conductivity, and active surface area of Co2GeO4 composites. The structural, chemical composition, and morphological properties of samples were characterized. Subsequently, the fabrication of cobalt germanium oxide with graphitic carbon nitride (Co2GeO4/GCN) was modified over a screen-printed carbon electrode (SPCE) towards electrochemical detection of ORD. Electrochemical measurements were recorded by cyclic voltammetry (CV) and differential pulse voltammetry (DPV) for the determination of ORD. The Co2GeO4/GCN nanocomposite exhibits a wide linear range response of 0.049–94.9 μM in DPV with a nanomolar limit of detection of 7.2 nM of ORD and a high sensitivity of 2.66 µA µM−1 cm−2. An interference study was carried out for the Co2GeO4/GCN nanocomposite in the existence of hazardous metals, biological compounds, and similar drugs for examining the selectivity of the sensor. The proposed Co2GeO4/GCN nanocomposite reveals superior sensing selectivity towards ORD; hence, repeatability, reproducibility, and storage stability were recorded in their RSD and found to be less than 0.4%, adding to this practical feasibility of the sensor analyzed by real samples of blood serum & human urine with exceptional recovery percentages.

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