Radiation-induced preparation of core/shell gold/albumin nanoparticles

Abstract

Nanoparticles (NPs) are one of the most promising nanomaterials to be used in the biomedical field. Gold NPs (Au-NPs) have been covered with monolayers of many different molecules and macromolecules to prepare different kinds of biosensors. However, these coatings based on physisorption methods are not stable enough to prepare functional nanomaterials to be used in complex mixtures or in vivo applications. The aim of this work was to prepare a protein coating of Au-NPs based on a protein multilayer covering, stabilized by a novel radiation-induced crosslinking process. Albumins from human and bovine source were added to Au-NPs suspension and followed by ethanol addition to induce protein aggregation. Samples were irradiated with a gamma source at 10 kGy to induce a protein crosslinking according to recent findings. Samples containing 30%v/v ethanol showed a plasmon peak at about 532 nm, demonstrating the presence of non-aggregated Au-NPs. Using higher ethanol concentrations, the absorbance of plasmon peak showed NP aggregation. By Dynamic Light Scattering measurements, a new particle population with an average diameter of about 60 nm was found. Moreover, TEM images showed that the NPs had spherical shape and the presence of a low-density halo around the metal core confirmed the presence of the protein shell. An irradiation dose of one kGy was enough to show changes in the plasmon peak characteristics. The increase in the chemical stability of protein shell was demonstrated by the reduction in the NP dissolution kinetics in presence of cyanate.