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Study of Magnetic Properties and Relaxation Time of Nanoparticle Fe3O4-SiO2

Togar Saragi, Bayu Permana, Arnold Therigan, Hotmas D. Sinaga, Trisna Maulana, Risdiana Risdiana

2022Materials11 citationsDOIOpen Access PDF

Abstract

The magnetic properties and relaxation time of Fe3O4 nanoparticles, and their encapsulation with silicon dioxide (Fe3O4-SiO2), have been successfully investigated by analyzing the temperature dependence of magnetization (M(T)) and the time dependence of magnetization (M(t)), using the SQUID magnetometer measurement. The M(T) measurement results can determine the magnetic parameters and magnetic irreversibility of Fe3O4 and Fe3O4-SiO2 samples. The values of Curie constant (C), effective magnetic moment (μeff), and Weiss temperature (θP) are 4.2 (emu.K.Oe/mol), 5.77 μB, and −349 K, respectively, for the Fe3O4 samples, and 81.3 (emu.K.Oe/mol), 25.49 μB, and −2440 K, respectively, for the Fe3O4-SiO2 samples. After encapsulation, the broadening peak deviation decreased from 281.6 K to 279 K, indicating that the superparamagnetic interactions increased with the encapsulation process. The magnetic parameters and irreversibility values showed that the superparamagnetic properties increased significantly after encapsulation (Fe3O4-SiO2). From the results of the M(t) measurement, it was found that there was a decrease in the magnetic relaxation time after the encapsulation process, which indicated that the distribution of the nanoparticle size and anisotropy energy increased.

Topics & Concepts

SuperparamagnetismMagnetometerMaterials scienceMagnetizationMagnetic momentNanoparticleCondensed matter physicsMagnetic nanoparticlesNuclear magnetic resonanceAnisotropy energyAnalytical Chemistry (journal)Magnetic anisotropyAnisotropyNanotechnologyChemistryMagnetic fieldPhysicsChromatographyOpticsQuantum mechanicsMagnetic Properties and Synthesis of FerritesIron oxide chemistry and applicationsCharacterization and Applications of Magnetic Nanoparticles
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