Abstract
A novel one-step approach was developed for the large-scale synthesis of sulfur- and nitrogen-co-doped carbon dots (S–N–C-dots) by using sulfuric acid carbonization and etching of hair fiber. It was found that S and N can form different binding configurations in S–N–C-dots framework, such as –C–S– covalent bond of the thiophene-S and –C–SOx– (x=2, 3, 4, sulfate or sulfonate) for S-doped, pyridinic N and pyrrolic N for N-doped, respectively. Moreover, higher reaction temperature was in favor of the formation of S–N–C-dots with smaller size, higher S content, and longer wavelength of photoluminescence emissions. The resulting S–N–C-dots also exhibited good luminescence stability, low toxicity, good biocompatibility, and high solubility. This approach may provide an efficient strategy for synthesizing heteroatom-co-doped carbon dots.
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