Abstract

Mercury speciation is essential for ecological security and human health due to its accumulative, toxicity, and persistent feature in the environment and biota. Here, we present a bimodal detection strategy for discrimination of mercury ions (Hg2+) and methylmercury (CH3Hg+) by utilizing valence-states mediated morphology transition of p-aminothiophenol (PATP) modified gold nanorods (GNRs@PATP). Hg2+ could be reduced by PATP to form Au-Hg amalgams on the surface of GNRs. The nanoalloy prevents GNRs aggregation, exhibiting a blue-shift of longitudinal surface plasmon resonance peak. Furthermore, the presence of Hg2+ triggers conversions of PATP to p, p′‑dimercaptoazobenzene, which results in a distinctly surface enhanced Raman scattering (SERS) signals output. Conversely, CH3Hg+ reacts with the amino of the PATP and facilitates GNRs self-assembly due to the excellent affinity of CH3Hg+-NH2 interactions, leading to occurrence of an absorption peak at 930 nm. Based on the to-together-and-to-isolate interaction between GNRs@PATP and mercury species, a “turn-on” SERS method and colorimetric assay are developed for Hg2+ and CH3Hg+ detection, respectively, providing LOD of 3.2 fM for Hg2+ and 0.3 nM for CH3Hg+. This sensing system displays a high selective response towards Hg2+ and CH3Hg+. Its practical applications are further validated by mercury speciation in environmental water, food and human hair.

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