Abstract

The presence of nickel in our water sources presents a danger to human health and aquatic organisms alike. Therefore, there is a need to detect and monitor nickel concentration in these sources. Current detection methods use instruments that are costly, resource intensive and require skilled personnel. Alternative methods that are simple and fast are needed. This study reports for the first time the development of a simple colorimetric assay for the detection of Ni2+ in aqueous solution using citrate-stabilized silver nanoparticles. Chemical synthesis method was employed using sodium borohydride and trisodium citrate as reducing and stabilizing agents, respectively. The characterization techniques used for obtaining spectral and morphological properties were ultraviolet-visible spectroscopy and transmission electron microscopy. The resultant silver nanoparticle solution was yellow in color and exhibited an absorbance peak at 392 nm. The full width at half maximum value was 57.8 ± 1.3 nm indicating particle monodispersity. For the morphology, the nanoparticles were spherical in shape with an average size of 10.4 ± 4.5 nm. Furthermore, the colorimetric properties of the silver nanoparticles for Ni2+ detection was investigated. Ni2+ was visually detected through a fast solution color change from yellow to orange. Monitoring of the absorbance showed a decrease in the original 392 nm peak and broadening of the surface plasmon absorption band. These changes are attributed to the aggregation of the nanoparticles due to Ni2+ addition which was confirmed by the transmission electron microscopy imaging. The absorption ratio (A510/A392) was plotted against varying Ni2+ concentration and it exhibited a good linear correlation from 0.7 to 1.6 mM with an R2 of 0.9958. The limits of detection and quantification were 0.75 and 1.52 mM, respectively. Additionally, the assay was tested against other common ions and showed excellent selectivity for Ni2+. Finally, the assay was successfully tested to detect Ni2+ in tap water samples with an average difference of 16% from prepared concentrations. Overall, the study showed the potential of using citrate-stabilized silver nanoparticles as a colorimetric reagent for detecting Ni2+ in aqueous solution.

Highlights

  • Nickel is a naturally-occurring element in the environment that can be extracted from ores through mining

  • The citrate-stabilized silver nanoparticle solution was stored at room conditions for 1 h prior to use

  • The particles will absorb varying wavelengths resulting in a wider curve

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Summary

Introduction

Nickel is a naturally-occurring element in the environment that can be extracted from ores through mining. Based on the report of Nakajima et al [1], countries rich in nickel reserves, such as Indonesia and the Philippines, have seen increase in mining activity since the late 1990s. Due to the increased mining activity, nickel reaches aquatic environments through spillage, dam seepage, and direct discharge. Nickel at high concentration can cause lung, brain and kidney damage among many others. Long-term exposure can lead to muscular damage and neurological disorders as discussed by Jaishankar et al [2]. There is a need to detect and monitor nickel contamination levels especially in waters nearest to humans and food sources

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