This study introduces a new method for the visual and spectrophotometric detection of chemical species using copper nanoparticles (Cu NPs). A simple method for the synthesis of Cu NPs for rapid colorimetric visual detection of sulfide ions (S(2-)) in water samples is described. The Cu NPs sensor detects sensitive and selective color change in the presence of micromolar levels of S(2-) that can be observed with the naked eye and monitored using a UV-vis spectrophotometer. The color change quantitatively correlates with the concentration of S(2-) from 12.5 × 10(-6)M to 50.0 × 10(-6)M. Samples of tap water and river water were spiked and analyzed using the proposed system. The results showed that the sensor exhibited excellent detection for S(2-) in the water samples. A main advantage of the new method is that it provides good selectivity for detecting S(2-) without the need for complex readout equipment. The proposed method has a high potential for rapid environmental monitoring of sulfide ions.
Keywords: Colorimetric probe; Copper nanoparticles; Spectrophotometric determination; Sulfide; Surface plasmon resonance.
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