Abstract
A kind of nitrogen doped carbon dots (N-CDs) was facilely fabricated from polyethyleneimine and anhydrous citric acid, and which was adopted to develop a neoteric “on-off” and “off-on” fluorescent sensor for rapidly and efficiently sensing Hg2+ and I−. The fluorescence of N-CDs was notably quenched (off) in the existence of Hg2+ derived from strong interaction and the electron transfer between N-CDs and Hg2+, while the quenched fluorescence of the N-CDs and Hg2+ system was strikingly regained by addition of I− (on) resulted from the separation of N-CDs and Hg2+ due to the higher binding preference between Hg2+ and I−. Under optimal conditions, the linear detection ranges were 0.01–20 μM for Hg2+ and 0.025–7 μM for I−, respectively. Meanwhile, the detection limits could be down to 3.3 nM for Hg2+ and 8.5 nM for I−, respectively. Satisfied recoveries had also been gained for measuring Hg2+ and I− in practical water samples. The constructed “on-off-on” fluorescent sensor provided a simple, rapid, robust and reliable platform for detecting Hg2+ and I− in environmental applications.
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