Catalytic competence of gold clusters decorated yellow 2 G polymer composite film for voltammetric sensing of dopamine and nicotine in biological fluids

IF 4 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Lokman Liv
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Abstract

A novel, simple, cost-effective, easy-to-prepare, and timesaving electrochemical sensor based on gold clusters decorated yellow 2 G polymer composite film was fabricated and comprehensively characterized for the determination of dopamine and nicotine in real samples. When gold clusters were modified on the yellow 2 G polymer film, a signal increase of 204 % for dopamine and 526 % for nicotine was obtained compared to the activated bare pencil graphite electrode. The signals at 90 mV for dopamine and 780 mV for nicotine were utilized as analytical responses. The fabricated platform serves noteworthy detection sensitivity values of 79.02μA.μM1.cm2 and 14.61μA.μM1.cm2 with a notable limit of detection values of 58.8 nM and 7.2 nM for dopamine and nicotine, respectively. The electrochemical method has linear ranges of 0.075–5 µM and 6–10 µM for dopamine alone, 0.01–10 µM and 12–25 µM for nicotine alone, 0.01–10 µM and 12–50 µM for nicotine in the presence of dopamine, 0.2–10 µM and 12–60 µM for dopamine in the presence of nicotine, and 0.4–2, 2–10 and 12–90 µM for dopamine and 0.2–8, 10–20 and 25–90 µM for nicotine at the increasing amounts of each substance. Moving forward, the developed method exhibits splendid accuracy and selectivity for determining dopamine and nicotine in biological samples of human saliva, serum, and urine.
装饰有黄色 2 G 聚合物复合膜的金簇的催化能力,用于生物液体中多巴胺和尼古丁的伏安法检测
制备了一种基于金簇装饰的黄色 2 G 聚合物复合薄膜的新型电化学传感器,并对其进行了全面表征,用于测定实际样品中的多巴胺和尼古丁。与活化的裸铅笔石墨电极相比,在黄色 2 G 聚合物薄膜上修饰金簇后,多巴胺的信号增加了 204%,尼古丁的信号增加了 526%。多巴胺和尼古丁的分析响应分别为 90 mV 和 780 mV。该平台的检测灵敏度分别为 79.02μA.μM-1.cm-2 和 14.61μA.μM-1.cm-2,多巴胺和尼古丁的检测限分别为 58.8 nM 和 7.2 nM。该电化学方法的线性范围分别为:单测多巴胺为 0.075-5 µM 和 6-10 µM;单测尼古丁为 0.01-10 µM 和 12-25 µM;尼古丁在多巴胺存在下为 0.01-10 µM 和 12-50 µM;多巴胺在尼古丁存在下为 0.多巴胺为 0.4-2、2-10 和 12-90 µM,尼古丁为 0.2-8、10-20 和 25-90 µM。该方法在测定人体唾液、血清和尿液等生物样品中的多巴胺和尼古丁含量方面具有极高的准确度和选择性。
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来源期刊
Synthetic Metals
Synthetic Metals 工程技术-材料科学:综合
CiteScore
8.30
自引率
4.50%
发文量
189
审稿时长
33 days
期刊介绍: This journal is an international medium for the rapid publication of original research papers, short communications and subject reviews dealing with research on and applications of electronic polymers and electronic molecular materials including novel carbon architectures. These functional materials have the properties of metals, semiconductors or magnets and are distinguishable from elemental and alloy/binary metals, semiconductors and magnets.
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