Multicolour fluorescent carbon nanoparticle probes for live cell imaging and dual palladium and mercury sensors.

Abstract

Carbon based nanomaterials are emerging as a desirable alternative to semiconducting quantum dots due to their unique optical properties and biocompatibility. The present study demonstrates the design and synthesis of highly fluorescent carbon nanoparticles (CNPs). The CNPs are investigated for their biocompatibility and henceforth successfully employed as promising multicolor bioimaging probes in A375 and DU145 cell lines. Furthermore, a "turn off" mode has been established for the detection of noble metal palladium (Pd2+) and heavy metal mercury (Hg2+) by quenching the fluorescence of CNPs. The CNP sensor responded to the detection of Pd2+ (5-100 μM) and Hg2+ (1-18 μM) in a wide range with the limit of detection (LOD) of 58 nM for Pd2+ and 100 nM for Hg2+. The CNP sensor was employed for the detection of Pd2+ and Hg2+ in real water samples and detection of leftover palladium catalysts in a model reaction system. Also, the CNPs were successfully employed as intracellular mercury and palladium sensors using confocal microscopy.