Synthesis and Size-Dependent Exchange Bias in Inverted\nCore−Shell MnO|Mn&lt;sub&gt;3&lt;/sub&gt;O&lt;sub&gt;4&lt;/sub&gt; Nanoparticles

German Salazar-Alvarez (130851); Jordi Sort (130823); Santiago Suriñach (2483323); M. Dolors Baró (2483326); Josep Nogués (2474152)

JOURNAL ARTICLE

Synthesis and Size-Dependent Exchange Bias in Inverted\nCore−Shell MnO|Mn3O4 Nanoparticles

German Salazar-Alvarez (130851)Jordi Sort (130823)Santiago Suriñach (2483323)M. Dolors Baró (2483326)Josep Nogués (2474152)

Year: 2016 Journal: OPAL (Open@LaTrobe) (La Trobe University) Publisher: La Trobe University

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Abstract

Core−shell nanoparticles of MnO|Mn3O4 with average particle sizes of 5−60 nm, composed of\nan antiferromagnetic (AFM) core and a ferrimagnetic (FiM) shell, have been synthesized and their magnetic\nproperties investigated. The core−shell structure has been generated by the passivation of the MnO cores,\nyielding an inverted AFM-core|FiM-shell system, as opposed to the typical FM-core|AFM-shell. The\nexchange-coupling between AFM and FiM gives rise to an enhanced coercivity of ∼8 kOe and a loop shift\nof ∼2 kOe at 10 K, i.e., exchange bias. The coercivity and loop shift show a non-monotonic variation with\nthe core diameter. The large coercivity and the loop shift are ascribed to the highly anisotropic Mn3O4 and\nsize effects of the AFM (i.e., uncompensated spins, AFM domains, and size-dependent transition\ntemperature).

Keywords:

Coercivity Ferrimagnetism Exchange bias Nanoparticle Antiferromagnetism Anisotropy Core (optical fiber) Passivation Magnetic nanoparticles Magnetic hysteresis

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Multiferroics and related materials

Physical Sciences → Materials Science → Electronic, Optical and Magnetic Materials

Magnetic Properties and Synthesis of Ferrites

Physical Sciences → Materials Science → Materials Chemistry

Magnetic properties of thin films

Physical Sciences → Physics and Astronomy → Atomic and Molecular Physics, and Optics

Synthesis and Size-Dependent Exchange Bias in Inverted\nCore−Shell MnO|Mn<sub>3</sub>O<sub>4</sub> Nanoparticles

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