Electrochemical Sensor Based on Electrodeposited Graphene-Au Modified Electrode and NanoAu Carrier Amplified Signal Strategy for Attomolar Mercury Detection

化学 检出限 石墨烯 电极 胸腺嘧啶 电化学 纳米技术 电化学气体传感器 选择性 水溶液中的金属离子 分析化学(期刊) 鸟嘌呤 荧光 无机化学 金属 DNA 色谱法 物理化学 有机化学 材料科学 催化作用 物理 基因 量子力学 核苷酸 生物化学
作者
Yi Zhang,Guang Zeng,Lin Tang,Jun Chen,Yuan Zhu,Xiaoxiao He,Yan He
出处
期刊:Analytical Chemistry [American Chemical Society]
卷期号:87 (2): 989-996 被引量:277
标识
DOI:10.1021/ac503472p
摘要

An electrochemical sensor was developed for attomolar Hg(2+) detection. Three single-stranded DNA probes were rationally designed for selective and sensitive detection of the target, which combined T-Hg(2+)-T coordination chemistry and the characteristic of convenient modification of electrochemical signal indicator. Graphene and nanoAu were successively electrodeposited on a glass carbon electrode surface to improve the electrode conductivity and functionalize with the 10-mer thymine-rich DNA probe (P1). NanoAu carriers functionalized with 29-mer guanine-rich DNA probe (P3) labeled methyl blue (MB-nanoAu-P 3s) were used to further strengthen signal response. In the presence of Hg(2+), a T-T mismatched dsDNA would occur between P1 and a 22-mer thymine-rich DNA probe (P2) on the electrode surface due to T-Hg(2+)-T coordination chemistry. Followed by adding the MB-nanoAu-P 3s for hybridization with P2, square wave voltammetry was executed. Under optimal conditions, Hg(2+) could be detected in the range from 1.0 aM to 100 nM with a detection limit of 0.001 aM. Selectivity measurements reveal that the sensor is specific for Hg(2+) even with interference by high concentrations of other metal ions. Three different environmental samples were analyzed by the sensor and the results were compared with that from an atomic fluorescence spectrometry. The developed sensor was demonstrated to achieve excellent detectability. It may be applied to development of ultrasensitive detection strategies.
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