Open AccessManganese doped-iron oxide nanoparticle clusters and their potential as agents for magnetic resonance imaging and hyperthermia
Author(s) -
Maria Francesca Casula,
Erika Conca,
Ioanna Bakaimi,
Ayyappan Sathya,
Maria Elena Materia,
Alberto Casu,
Andrea Falqui,
Elisa Sogne,
Teresa Pellegrino,
Antonios G. Kanaras
Publication year - 2016
Publication title -
physical chemistry chemical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.053
H-Index - 239
eISSN - 1463-9084
pISSN - 1463-9076
DOI - 10.1039/c6cp02094a
Subject(s) - manganese , magnetic resonance imaging , nanoparticle , doping , iron oxide , manganese oxide , nuclear magnetic resonance , materials science , magnetic nanoparticles , magnetic hyperthermia , iron oxide nanoparticles , hyperthermia , nanotechnology , chemistry , optoelectronics , medicine , metallurgy , radiology , physics
A simple, one pot method to synthesize water-dispersible Mn doped iron oxide colloidal clusters constructed of nanoparticles arranged into secondary flower-like structures was developed. This method allows the successful incorporation and homogeneous distribution of Mn within the nanoparticle iron oxide clusters. The formed clusters retain the desired morphological and structural features observed for pure iron oxide clusters, but possess intrinsic magnetic properties that arise from Mn doping. They show distinct performance as imaging contrast agents and excellent characteristics as heating mediators in magnetic fluid hyperthermia. It is expected that the outcomes of this study will open up new avenues for the exploitation of doped magnetic nanoparticle assemblies in biomedicine.
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