Nitrogen and sulfur co-doped carbon quantum dots as on-off-on fluorescence probes to detect Hg2+and MnO4? and improving the photostability of Rhodamine B

Background: Carbon quantum dot (CQDs) are zero-dimensional carbon nanomaterials with a size of less than 10 nm CQDs are widely used in the field of ion detection by virtue of their fluorescence characteristics such as strong fluorescence intensity, good optical stability and tunable emission wavelength. Although the traditional atomic absorption method, electrochemical method and other metal ion detection methods are highly sensitive, the operation is complex, expensive and limited by the site. Therefore, we prepared the N, S-CQDs capable of detecting Hg2+ and MnO4  in water with the advantages of simple operation, low cost, and direct visual signal. Results: N, S-CQDs with high-quantum yield (77.68%), uniform particle size (0.4 nm-2.6 nm) and green fluorescence were created utilizing a one-pot hydrothermal process with the precursors ASDA-Na4 and m phenylenediamine. N, S-CQDs has good optical properties such as high fluorescence intensity, wavelength independence, up-conversion luminescence and fluorescence stability. We examined 27 common ions in water and found that the fluorescence of N, S-CQDs could be selectively quenched by Hg2+ and MnO4- , and the detection limits are 0.41 & mu;M and 1.2 & mu;M, respectively. The mechanism of quenching is further investigated. The fluorescence of N, S-CQDs-Hg2+ system can be restored by halogen ions (Cl-, Br-, I-), while the fluorescence of N, SCQDs-MnO4- system can be partially restored by Fe2+. This forms an on-off-on mode of fluorescent probes. In addition, we also studied that trace amounts of N, S-CQDs can improve the photostability of RhB. Significance: The N, S-CQDs are fluorescent probes in an on-off-on mode. N, S-CQDs with green fluorescence (on) can be quenched by Hg2+ and MnO4- (off). The fluorescence quenched by Hg2+ can be restored by halogen ions again, while the fluorescence quenched by MnO4- can partially be restored (on). This ion detection method can be used to visually detect the two ions in the field, with the advantages of low cost, simple operation and visual intuition.

Automated summary

In this study, N, S-CQDs were prepared and used for the detection of mercury ions and permanganate ions based on their unique fluorescence characteristics. N, S-CQDs exhibited high fluorescence intensity, good optical stability, and tunable emission wavelength. The fluorescence of N, S-CQDs can be selectively quenched and restored by halogen ions and Fe2+, respectively, providing a simple, low-cost, and visually intuitive ion detection method.