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Multicore Manganese Ferrite Nanoparticles for Theranostics

Carlos Eduardo Ribeiro, Marcus Vinícius‐Araújo, Andris F. Bakuzis

2025ACS Applied Nano Materials12 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Collective behavior mediated by the assembly of nanoparticles (NPs) can result in theranostic applications. Herein, multicore Mn-ferrite-based magnetic nanostructures of various sizes were obtained by tuning the ionic force in the colloidal media, facilitated by a magnetophoresis phase-separation process. The hydrodynamic diameters ranged from 55 nm for the preseparation sample (0 h) to 35 nm at 48 h post separation. X-ray diffraction patterns confirmed the spinel structure. The saturation magnetization decreased from 262.5 kA m –1 at 0 h to 111.9 kA m –1 at 48 h, indicating a decrease in size. Transmission electron microscopy images corroborate these results but also reveal that lower cluster sizes contained smaller NPs, changing from 15 ± 4 nm at 0 h to 5 ± 2 nm at 48 h. Optical studies revealed a blue-shift phenomenon and a decrease in absorbance with a decrease in size that is consistent with the lower photothermal conversion coefficient, while the band gap energy varied from 1.72 to 2.06 eV due to confinement effects. The longitudinal and transverse ( r 2 ) relaxivities at 20 °C decreased from 20 mM –1 s –1 to 8 mM –1 s –1 and from 750 mM –1 s –1 to 300 mM –1 s –1 from 0 to 48 h, respectively. While the r 2 of the NPs at 0 h decreased at 37 °C to 568 mM –1 s –1, confirming that the clusters are in the motional averaging regime. The results are explained by outer sphere theory and suggest that the magnetic cluster is a thermally sensitive contrast agent with potential for MRI thermometry.

Topics & Concepts

NanoparticleFerrite coreMaterials scienceNanotechnologyFerrite (magnet)Computer scienceEngineeringComposite materialElectrical engineeringElectromagnetic coilNanoparticle-Based Drug DeliveryMagnetic Properties and Synthesis of FerritesCharacterization and Applications of Magnetic Nanoparticles