نبذة مختصرة : The SPIONs are currently commercially produced. Endorem® (by Guerbet Group, Feridex in the USA) is one of the most known commercial MRI contrast agents and it is constituted by a magnetic core (diameter ~67nm) of mixed -Fe2O3 and Fe3O4 oxides coated with dextran, giving a nanoparticle which has an average ~150 nm hydrodynamic diameter. Despite the undoubtful efficacy of Endorem®, problems of reproducibility of the MR images are often encountered, possibly because the nanoparticles present high polydispersity and different batches of sample possess different mix of the two iron oxides. The limited reproducibility together with the necessity of obtaining systems with better controlled microscopic properties, have motivated many research groups to synthesize new monodispersed SPIONs families. The central idea of the research activity reported in the thesis has been the study of novel magnetic nanoparticles (MNP) for application as contrast agent (CA) in MRI and future other diagnostics and therapeutics, such as optical imaging, targeted drug delivery, and magnetic hyperthermia. A second part of research was related to fundamental aspects of magnetism, in which the spin dynamics and magnetic properties of molecular nanomagnets were studied. Concerning the second part of research we have just reported the related publications in the Appendix B while in the main body of the thesis we will focus on the application part of the research, i.e. biomedical applications of MNPs. To test the efficiency of new samples in contrasting the MR images, we have investigated magnetic and relaxometric properties of two different types of novel superparamagnetics nanoparticles: 1. Polymer-based nanostructured bio-ferrofluids. These materials, in brief bio-ferrofluids, are candidates for the hyperthermia, optical imaging, and MRI. Bio-ferrofluids are a series of novel maghemite/polymer composite ferrofluids with variable magnetic core size. Our investigations have shown that they have a good efficiency as MRI CAs. These biocompatible ...
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