Sensing of mercury ions in Porphyra by Copper @ Gold nanoclusters based ratiometric fluorescent aptasensor

A novel aptamer-modified Copper @ Gold nanoclusters (apt-Cu@Au NCs) based ratiometric fluorescent probe was developed for mercury ions (Hg2+) determination in Porphyra. The apt-Cu@Au NCs were well dispersed in solution without Hg2+ but combined together for the formation of thymidine-Hg-thymidine structure with the addition of Hg2+, which further caused the changes in their fluorescence intensities owing to fluorescence resonance energy transfer. Along with that, the changes in fluorescent colors are visible to the naked eye. Accordingly, Hg2+ were determined ranging from 0.1 to 9.0 mu M by fluorescence analysis with the detection limit of 4.92 nM. Moreover, a homemade device utilizing smartphone and microfluidic chip was designed for colorimetric determination of Hg2+ ranging from 0.5 to 7.0 mu M with good portability and usefulness. The proposed methods were used for Hg2+ detection in Porphyra with the recoveries of 101.83-114.00%, suggesting the considerable potential for evaluating Hg2+ levels in aquatic products.

Automated summary

A novel aptamer-modified Copper @ Gold nanoclusters based ratiometric fluorescent probe was developed for mercury ions determination in Porphyra, with a detection limit of 4.92 nM. Additionally, a homemade device for colorimetric determination of Hg2+ was designed, showing good portability and usefulness. The study suggests the considerable potential of these methods for evaluating Hg2+ levels in aquatic products.