Improvement of the magnetization and heating ability of CoFe2O4/NiFe2O4 core/shell nanostructures

Third Author's Department

Energy Materials Laboratory

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https://doi.org/10.1088/1402-4896/ad9123

All Authors

Maram G. Zonkol, A. M. Faramawy, Nageh K. Allam, H. M. El-Sayed

Document Type

Research Article

Publication Title

Physica Scripta

Publication Date

12-1-2024

doi

10.1088/1402-4896/ad9123

Abstract

In this study, the effect of the shell thickness on the structural and magnetic properties of the CoFe2O4/NiFe2O4 core/shell is studied. A single-phase core/shell nanocomposite was prepared by the hydrothermal method. The shell thickness was found to control the magnitudes of saturation magnetization and coercive field of the prepared samples. The thickness of the NiFe2O4, which covered cubic CoFe2O4 particles of 15 nm, was 1.8 nm, leading to an increase in the saturation magnetization by 26% and a decrease in the coercive field by 50% compared to bare CoFe2O4. However, a further increase in shell thickness caused interfacial dislocations due to the lattice mismatch between the core and the shell. Finally, specific absorption rate (SAR) at high frequency was measured for all samples. Comparing the temperature rise under the influence of AC magnetic field, which indicates power loss, relative to bare CoFe2O4, it was enhanced by 100% for a shell thickness of 26 nm. The results of this study point to potential applications for these samples in the field of magnetic hyperthermia for cancer therapy and drug delivery.

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Article. Record derived from SCOPUS.

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