Qiuxiang Lv scite author profile

Excessive mercury ions (Hg2+) cause great pollution to soil/water and pose a major threat to human health. The high sensitivity and high selectivity in the Hg2+ detection demonstrated herein are significant for the research areas of analytical chemistry, chemical biology, physical chemistry, drug discovery, and clinical diagnosis. In this study, a series of simple, low-cost, and highly sensitive biochips based on a graphene oxide (GO)/DNA hybrid was developed. Hg2+ is detected with high sensitivity and selectivity by GO/DNA hybrid biochips immobilized on glass slides. The performance of the biosensors can be improved by introducing more phosphorothioate sites and complementary bases. The best limit of detection of the biochips is 0.38 nM with selectivity of over 10:1. This sensor was also used for Hg2+ detection in Dendrobium. The results show this biochip is promising for Hg2+ detection.

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Detection of mercury ions using graphene oxide sensors assisted by Ag@SiO2

Gao

et al. 2022

Appl Nanosci

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Qiuxiang Lv

Aptamer-based biosensor for detecting carcinoembryonic antigen

Highly sensitive detection of Hg2+ using molybdenum disulfide-DNA sensors

Detection of Mercury Ion with High Sensitivity and Selectivity Using a DNA/Graphene Oxide Hybrid Immobilized on Glass Slides

Detection of mercury ions using graphene oxide sensors assisted by Ag@SiO2

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