Detection of mercury ions using silver telluride nanoparticles as a substrate and recognition element through surface-enhanced Raman scattering

In this paper we unveil a new sensing strategy for sensitive and selective detection of Hg(2+) through surface-enhanced Raman scattering (SERS) using Ag(2)Te nanoparticles (NPs) as a substrate and recognition element and rhodamine 6G (R6G) as a reporter. Ag(2)Te NPs prepared from tellurium dioxide and silver nitrate and hydrazine in aqueous solution containing sodium dodecyl sulfate at 90°C with an average size of 26.8 ± 4.1 nm (100 counts) have strong SERS activity. The Ag(2)Te substrate provides strong SERS signals of R6G with an enhancement factor of 3.6 × 10(5) at 1360 cm(−1), which is comparable to Ag NPs. After interaction of Ag(2)Te NPs with Hg(2+), some HgTe NPs are formed, leading to decreases in the SERS signal of R6G, mainly because HgTe NPs relative to Ag(2)Te NPs have weaker SERS activity. Under optimum conditions, this SERS approach using Ag(2)Te as substrates is selective for the detection of Hg(2+), with a limit of detection of 3 nM and linearity over 10–150 nM. The practicality of this approach has been validated for the determination of the concentrations of spiked Hg(2+) in a pond water sample.