Plant-derived Ca, N, S-Doped carbon dots for fast universal cell imaging and intracellular Congo red detection

Congo red (CR) is a hazardous pigment, posing increasing dangerous to the environment and human health. However, the in-situ detection of CR in living cells has not been reported, as far as we know. Here, negatively-charged green-emitting Ca, N, S-doped carbon dots (Mis-mPD-CDs) were fabricated from plant and m-phenylenediamine (mPD) by facile one-step hydrothermal carbonization. Mis-mPD-CDs were capable of rapidly detecting CR on the basis of their fluorescence quenching by CR due to the inner filter effect. This CR detection based on Mis-mPD-CDs displayed a linear range of 0.2–1.2 μM and a low limit of detection (58 nM), and was not interfered by metal ions, important biological molecules, and other dyes, showing high sensitivity and selectivity. More interestingly, Mis-mPD-CDs can rapidly enter and label animal cells (A549, 4T1, and HUVEC), fungi (S. cerevisiae, C. albicans, and T. reesei), and bacteria (E. coli and S. aureus) for long term with high stability and appealing biocompatibility. Based on these compelling characteristics, we applied Mis-mPD-CDs for sensing and imaging CR in living cells (A549, C. albicans, E. coli, and S. aureus) and zebra fish. On the other hand, the quantitative detection of CR by Mis-mPD-CDs was realized in real samples like fish tissues and industrial wastewater. This is the first report on applying CDs for rapid CR detection in living cells and in vivo. Mis-mPD-CDs provides a novel efficient platform for probing intracellular CR, expanding the applications of CDs as biosensors for toxic dyes. [Display omitted] •Mis-mPD-CDs were hydrothermally synthesized from plant and mPD.•Mis-mPD-CDs can rapidly detect Congo red (CR) with high sensitivity and selectivity.•Mis-mPD-CDs can rapidly image universal cells for long time with great stability and safety.•Mis-mPD-CDs were applied for sensing CR in living cells and zebra fish.•Mis-mPD-CDs were used for the quantitative assay of CR in fish tissues and wastewater.