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Nanoparticle Size Threshold for Magnetic Agglomeration and Associated Hyperthermia Performance

David Serantes, D. Baldomir

2021Nanomaterials30 citationsDOIOpen Access PDF

Abstract

The likelihood of magnetic nanoparticles to agglomerate is usually estimated through the ratio between magnetic dipole-dipole and thermal energies, thus neglecting the fact that, depending on the magnitude of the magnetic anisotropy constant (K), the particle moment may fluctuate internally and thus undermine the agglomeration process. Based on the comparison between the involved timescales, we study in this work how the threshold size for magnetic agglomeration (daggl) varies depending on the K value. Our results suggest that small variations in K-due to, e.g., shape contribution, might shift daggl by a few nm. A comparison with the usual superparamagnetism estimation is provided, as well as with the energy competition approach. In addition, based on the key role of the anisotropy in the hyperthermia performance, we also analyse the associated heating capability, as non-agglomerated particles would be of high interest for the application.

Topics & Concepts

Economies of agglomerationSuperparamagnetismMaterials scienceMagnetic nanoparticlesDipoleCondensed matter physicsMagnetic dipoleMagnetic momentNanoparticleMoment (physics)Particle sizeMagnetic anisotropyAnisotropy energyAnisotropyWork (physics)AgglomerateParticle (ecology)Magnetic fieldNanotechnologyMagnetizationThermodynamicsPhysicsChemistryOpticsComposite materialClassical mechanicsChemical engineeringEngineeringOceanographyQuantum mechanicsPhysical chemistryGeologyCharacterization and Applications of Magnetic NanoparticlesMagnetic properties of thin filmsNanoparticle-Based Drug Delivery
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