Encapsulated Fe3O4 nanoparticles of average diameters d = 12 nm are obtained by coprecipitation, in the presence of 2-methoxyethanol hemiester of poly(maleic anhydride-alt-butyl vinyl ether) 5% grafted with poly(ethylene glycol) (VP-MAG nanoparticles). A complete characterization of nude and encapsulated nanoparticles through structural techniques (namely XRD, TEM, SEM), Raman spectroscopy and magnetic measurements has been performed. These nanoparticles compared with commercial compounds (ENDOREM®) present superparamagnetic behavior and nuclear relaxivities that make them promising as magnetic resonance imaging (MRI) contrast agents (CAs). We found that our nanostructures exhibit r2 relaxivity higher than those of commercial CAs over the whole frequency range. The MRI efficiency of our samples was related to their microstructural and magnetic properties.
Magnetism and spin dynamics of novel encapsulated iron oxide superparamagnetic nanoparticles / P. Arosio, G. Baldi, F. Chiellini, M. Corti, A. Dessy, P. Galinetto, M. Gazzarri, M.S. Grandi, C. Innocenti, A. Lascialfari, G. Lorenzi, F. Orsini, A.M. Piras, C. Ravagli, C. Sangregorio. - In: DALTON TRANSACTIONS. - ISSN 1477-9226. - 42:28(2013), pp. 10282-10291. [10.1039/c3dt32805h]
Magnetism and spin dynamics of novel encapsulated iron oxide superparamagnetic nanoparticles
P. Arosio;A. Lascialfari;F. Orsini;
2013
Abstract
Encapsulated Fe3O4 nanoparticles of average diameters d = 12 nm are obtained by coprecipitation, in the presence of 2-methoxyethanol hemiester of poly(maleic anhydride-alt-butyl vinyl ether) 5% grafted with poly(ethylene glycol) (VP-MAG nanoparticles). A complete characterization of nude and encapsulated nanoparticles through structural techniques (namely XRD, TEM, SEM), Raman spectroscopy and magnetic measurements has been performed. These nanoparticles compared with commercial compounds (ENDOREM®) present superparamagnetic behavior and nuclear relaxivities that make them promising as magnetic resonance imaging (MRI) contrast agents (CAs). We found that our nanostructures exhibit r2 relaxivity higher than those of commercial CAs over the whole frequency range. The MRI efficiency of our samples was related to their microstructural and magnetic properties.
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