Nanomaterials and Nanotechnology

Biography

Biography: Heba ElSayed ElZorkany

Abstract

Owing to its intrinsic photophysical properties quantum dots (QDs) act as a new tool for imaging and drug delivery. In this study, biocompatible silica-coated QDs were synthesized in order to track their cellular uptake in cancer cells. Firstly, Trioctylphosphine oxide capped CdSe QDs were synthesized by organometallic routes and ZnS shell were grown on them by injection solution of diethylzinc (Zn (Et)2) and hexamethyldislathiane ((TMS)2S) as Zn and S precursors. CdSe/ZnS QDs were then rendered water soluble by over-coating with silica using 3-Aminopropyltriethoxysilane (APTS) as silica precursor. The toxicological effects of silica-coated
CdSe/ZnS (Si-QDs) were investigated by exposing hep-G2 cells to different concentrations of Si-QDs then the mitochondrial activity was evaluated using WST-1 kit. The intracellular localization of Si-QDs in hep-G2 cells was investigated by Confocal Laser Scanning Microscopy (CLSM) equipped with CO2 incubator up to six hours. All stages of QDs formation were characterized by UV-Vis absorption, emission spectroscopy TEM, XRD, DLS and ζ-potential. Results showed that, high fluorescence QDs were synthesized with a size between 2 and 4 nm. Also, Silica coating process yielded final particle sizes of 6-18 nm which possessed strong luminescence
property. The cytotoxicity test results showed that Si-QDs were nontoxic even at higher concentrations as cells remained viable when exposed to Si-QDs at the highest concentration of 100 nM. The fluorescence imaging of hep-G2 cells exposed to Si-QDs by CLSM time lapse mode for 6 hours depicted the fast internalization of Si-QDs into the cells producing good fluorescence in the cytoplasmic portion. These results confirmed the effective role of these fluorescent materials in biological labeling and imaging applications.