Abstract
Multifunctional nanoparticles with enzyme-like behavior represent an emerging paradigm in theranostics. Concerning cancer nanomedicine, recent studies have shown the great potential of palladium (Pd) nanozyme for chemodynamic therapy, by the generation of endogenous chemicals such as reactive oxygen species (ROS) through their oxidase and peroxidase activities or by relieving the hypoxia of tumor microenvironment through their catalase or superoxide dismutase (SOD) activity, with a potent antitumor effect that directly induces tumor cell death. In this thesis project, hybrid nanoplatforms made of Pd nanoparticles and graphene oxide (GO) nanosheets will be prepared by the green reduction of PdCl2 in the presence of polyvinylpyrrolidone as a stabilizing agent. Physicochemical properties will be scrutinized by using UV-visible and Raman spectroscopies, atomic force microscopy, zeta-potential and hydrodynamic light scattering and, on the catalytic side, photocatalysis experiments of H2 evolution and antioxidant activities studies. Proof-of-work in vitro cell experiments on cancer and health cells will be carried out in terms of cytotoxicity (MTT assay), inhibition of cell migration (wound scratch test) and organelle perturbation (colocalization studies by confocal microscopy).
Keywords
nanomaterials
angiogenesis
drug delivery
bioimaging
ERC sector(s)
PE Physical Sciences and Engineering
Fields of study
Name supervisor
Cristina Satriano
E-mail
cristina.satriano@unict.it
Name of Department/Faculty/School
Chemical Sciences
Name of the host University
University of Catania (UNICT)
EUNICE partner e-mail of destination Research
leonardo.mirabella@studium.unict.it
Country
Italy
Thesis level
PhD
Minimal language knowledge requisite
English B2
Thesis mode
On-site
Call deadline
Length of the research internship
Other
Financial support available (other than E+)
Yes