Issue 18, 2023

Observation of magnetic vortex configuration in non-stoichiometric Fe3O4 nanospheres

Abstract

Theoretical and micromagnetic simulation studies of magnetic nanospheres with vortex configurations suggest that such nanostructured materials have technological advantages over conventional nanosystems for applications based on high-power-rate absorption and subsequent emission. However, full experimental evidence of magnetic vortex configurations in spheres of submicrometer size is still lacking. Here, we report the microwave irradiation fabrication of Fe3O4 nanospheres and establish their magnetic vortex configuration based on experimental results, theoretical analysis, and micromagnetic simulations. Detailed magnetic and electrical measurements, together with Mössbauer spectroscopy data, provide evidence of a loss of stoichiometry in vortex nanospheres owing to the presence of a surface oxide layer, defects, and a higher concentration of cation vacancies. The results indicate that the magnetic vortex spin configuration can be established in bulk spherical magnetite materials. This study provides crucial information that can aid the synthesis of magnetic nanospheres with magnetically tailored properties; consequently, they may be promising candidates for future technological applications based on three-dimensional magnetic vortex structures.

Graphical abstract: Observation of magnetic vortex configuration in non-stoichiometric Fe3O4 nanospheres

Supplementary files

Article information

Article type
Paper
Submitted
20 Jun. 2023
Accepted
14 Aug. 2023
First published
31 Aug. 2023
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2023,5, 5015-5028

Observation of magnetic vortex configuration in non-stoichiometric Fe3O4 nanospheres

G. Niraula, D. Toneto, G. F. Goya, G. Zoppellaro, J. A. H. Coaquira, D. Muraca, J. C. Denardin, T. P. Almeida, M. Knobel, A. I. Ayesh and S. K. Sharma, Nanoscale Adv., 2023, 5, 5015 DOI: 10.1039/D3NA00433C

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