Huizhen Yuan scite author profile

As a highly toxic heavy metal ion, divalent mercuric ion (Hg 2+ ) is one of the most widely diffused and hazardous environmental pollutants. In this work, a simple, portable, and inexpensive fiber-optic sensor based on surface plasmon resonance (SPR) effect was developed for Hg 2+ detection, which takes advantage of 4-mercaptopyridine (4-MPY)-functionalized Au nanoparticles (Au NPs/4-MPY) as a signal amplification tag. Based on the coordination between Hg 2+ and nitrogen in the pyridine moiety, we developed the sensor by self-assembling 4-MPY on Au film surfaces to capture Hg 2+ and then introducing Au NPs/ 4-MPY to generate a plasmonic coupling structure with the configuration of nanoparticle-on-mirror. The coupling between localized SPR increased changes in SPR wavelength, which allowed highly sensitive Hg 2+ sensing in aqueous solution. The sensor exhibited superior selectivity for Hg 2+ detection compared with other common metal ions in water. The sensor's Hg 2+ detection limit is 8 nM under optimal conditions. Furthermore, we validated the sensor's practicality for Hg 2+ detection in tap water samples and demonstrated its potential application for environmental water on-site monitoring.

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A hydrogen peroxide sensor based on electrochemically roughened silver electrodes

Lian

Wang

Song

et al. 2009

Electrochimica Acta

101

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Huizhen Yuan

Fiber-optic surface plasmon resonance glucose sensor enhanced with phenylboronic acid modified Au nanoparticles

Mercaptopyridine-Functionalized Gold Nanoparticles for Fiber-Optic Surface Plasmon Resonance Hg²⁺ Sensing

A hydrogen peroxide sensor based on electrochemically roughened silver electrodes

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Huizhen Yuan

Fiber-optic surface plasmon resonance glucose sensor enhanced with phenylboronic acid modified Au nanoparticles

Mercaptopyridine-Functionalized Gold Nanoparticles for Fiber-Optic Surface Plasmon Resonance Hg2+ Sensing

A hydrogen peroxide sensor based on electrochemically roughened silver electrodes

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Product

Resources

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Mercaptopyridine-Functionalized Gold Nanoparticles for Fiber-Optic Surface Plasmon Resonance Hg²⁺ Sensing