4.7 Article

Ultrasensitive colorimetric detection of Hg2+ based on glutathione-modified Au nanoflowers

期刊

MICROCHEMICAL JOURNAL
卷 181, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.microc.2022.107766

关键词

Mercury ions; Colorimetric detection; Nanozymes; TMB; Glutathione modified gold nanoflowers

资金

  1. National Natural Science Foundation of China [21165016, 21265018]
  2. Science and Technology Support Projects of Gansu Province [1011GKCA025, 1208RJZM289]
  3. Postgraduate Research Funding Projects of Northwest Normal University [2021KYZZ02140]

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A colorimetric method for the determination of Hg2+ has been proposed in this study, based on the aggregation of Glutathione-modified gold nanoflowers (GSH-Au NFs) induced by the analyte and their activated peroxidase-mimicking activity. The method shows a wide linear range and a low detection limit, making it highly sensitive for the detection of Hg2+ and of great value in environmental monitoring.
Due to the harm of metal mercury to the environment and the human body, there is an urgent need for exploring novel, simple, and reliable methods for the detection of Hg2+. Herein, a colorimetric method is proposed for the determination of Hg2+ based on the analyte inducing the aggregation of Glutathione-modified gold nanoflowers (GSH-Au NFs) with activated peroxidase-mimicking activity. Briefly, highly dispersed GSH-Au NFs show negligible enzyme-like activity in water. When Hg2+ is added, GSH-Au NFs would aggregate rapidly for the interaction of Hg2+ with the carboxyl and amine groups of GSH. And the aggregates exhibit high peroxidase-mimicking catalytic activity and can catalyze the color reaction of 3, 3', 5, 5'-tetramethylbenzidine (TMB) in the presence of H2O2. Based on these phenomena, an ultrasensitive colorimetric detection method of Hg2+ has been developed. The linear range of this method is 10-300 nM and the detection limit is down to 3.9 nM, which is much lower than the standard value specified by the US EPA. The accuracy of the method has been verified in water samples, which reveals its great potential in environmental monitoring.

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