Carbon nanodots doped with boron and nitrogen (BN-CDs) with an average diameter of around 11 nm were prepared by a hydrothermal approach using adenine and 3-aminobenzene boronic acid as the starting materials. The atomic ratio of boron to nitrogen atomic in the BN-CDs is approximately 1:1. This indicates that a large fraction of N atoms goes lost during preparation because the B/N ratio of the precursors is about 1:6. The BN-CDs display blue fluorescence (best measured at excitation/emission wavelengths of 305/380 nm) which is independent of the excitation wavelength. On exposure to hypochlorite anion, fluorescence is quenched and the color of the solutions changes from yellow to brown. Fluorescence drops linearly in the 0.1-1000 μM hypochlorite concentration range. The colorimetric response, best measured as the absorbance ratio at 236/260 nm, ranges from 0.3 to 4.0 mM. The color changes can be readily detected visually. The probe was applied to the determination of hypochlorite in living cells and in (spiked) tap water. Graphical abstract Excitation wavelength-independent fluorescent boron and nitrogen codoped carbon nanodots (BN-CDs) were obtained by a hydrothermal approach. The BN-CDs were used to detect hypochlorite in wastewater by a fluorometric and colorimetric dual-readout assay.
Keywords: Assay mechanism; Carbon nanomaterial; Dual-readout signals; Excitation wavelength-independent emission; Fluorescence lifetime; Living cell imaging; Wastewater.