Abstract
It was found that silver nanoparticles (NPs) in the presence of nucleophiles and Cu 2+ could induce luminol to produce chemiluminescence (CL). The AgNPs–NaBr–CuSO 4–luminol system was chosen as a model system to study the CL mechanism. UV–vis absorption spectra showed that silver nanoparticles in the presence of NaBr could react with CuSO 4 before injection of luminol. The X-ray diffraction patterns and X-ray photoelectron spectra demonstrated that Cu(I) complex was a key reaction product in AgNPs–NaBr–CuSO 4 system. Besides, it was also found that superoxide dismutase could inhibit the CL, revealing that a superoxide anion was involved in the CL reaction. On this basis, it was suggested that the luminol CL induced by silver nanoparticles in the presence of NaBr and Cu 2+ derived from Cu(I) complex formed via the reduction of CuSO 4 by AgNPs by the aid of NaBr, which reacted with the dissolved oxygen to generate the superoxide anion; then the superoxide anion reacted with luminol to produce CL. Br − as a nucleophile was considered to decrease the oxidation potential of silver nanoparticles so that Cu(II) is readily reduced to Cu(I) and to bind to Cu(I) preventing Cu(I) from dismutation in water. As expected, other nucleophiles such as Cl −, I − and thiosulfate, which were also efficient to decrease the oxidation potential of AgNPs and bind to Cu(I), could also induce the luminol CL.
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More From: Journal of Photochemistry & Photobiology, A: Chemistry
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