MULTIFUNCTIONAL, HIGH LUMINESCENT, BIOCOMPATIBLE CdTe QUANTUM DOT FLUOROPHORES FOR BIOIMAGING APPLICATIONS

Abstract

Quantum Dots (QDs) are recently emerging as the alternative to organic fluorescent probes in bio imaging applications. In the present study, CdTe QDs were prepared in aqueous phase using a stable tellurium source in presence of a capping agent capable of stabilizing and regulating its growth in the pH range of 6.0–8.0, such that it is amenable for use in biological systems. The spectroscopic and microstructural studies confirmed the formation of CdTe nanoparticles capped by mercaptosuccinic acid (MSA) of average size 2.5 nm with narrow size distribution. These MSA– CdTe QDs have shown tunable fluorescence with high quantum yield, broad absorption and symmetric fluorescence spectra. Of the different QDs emitting varied luminescence, the yellow, orange and red QDs were taken up for further characterization, to assess their potential in bioimaging applications. The cytotoxicity assays in mammalian lymphocytes showed that these QDs have a very high order cell viability and low level of toxicity when incubated with varying QD concentrations (20–130 nm).