Physical and Theoretical Chemistry

Biography

Biography: Hanane Moustaoui

Abstract

Gold nanoparticles (GNP) are of great interest for several applications in nanomedicine, especially in imaging and sensing, drug delivery and photothermal therapy. In the case of therapy by nanovector or hyperthermia therapy, GNP interact with blood proteins after injection. This interaction induced coating of GNP by proteins namely protein corona. the GNP physicochemical properties like: size, shape and surface charge affect directly the structure and composition of the protein corona. To understand this interaction, protein corona have been explored for different size, shape of GNP, with several techniques, like UV-Vis spectroscopy, zeta potential and especially, correlation spectroscopy.

Recently, scattering correlation spectroscopy (SCS) is one of the most used techniques for GNP characterization. The SCS technique is based on the temporal analysis of the scattered intensity fluctuations and the correlation curve is directly related to the hydrodynamic radius of GNP, to their diffusion coefficient, concentration and shape. The SCS is very sensitive to GNP morphology and brightness since the scattering intensity depends on the GNP volume.

The characterization of protein corona by SCS technique will be presented for different sized GNP with different shapes (spheres, urchins and flowers), in presence of different concentrations of proteins (albumin, lysozyme and hemoglobin), at very low concentrations (~pM) and with very high precision. Such results show how protein cover gold nanoparticle (amount, conformation) and the specific adsorption of this protein according to shape and size of gold nanoparticles.

The authors acknowledge the ANR P2N (ANR-12-NANO-0016 - Piranex project) for financial supports.

Figure 1: Gold nanoparticles characterization by TEM (Left) spherical, (Right) flower-shpaed.