Effects of Zn Substitution in the Magnetic and Morphological Properties of Fe-Oxide-Based Core-Shell Nanoparticles Produced in a Single Chemical Synthesis
Lohr, J. ; De Almeida, A.A. ; Moreno, M.S. ; Troiani, H. ; Goya, G.F. (Universidad de Zaragoza) ; Torres Molina, T.E. ; Fernandez-Pacheco, R. (Universidad de Zaragoza) ; Winkler, E.L. ; Vasquez Mansilla, M. ; Cohen, R. ; Nagamine, L.C.C.M. ; Rodríguez, L.M. ; Fregenal, D.E. ; Zysler, R.D. ; Lima, E.
Resumen: Magnetic, compositional, and morphological properties of Zn-Fe-oxide core-shell bimagnetic nanoparticles were studied for three samples with 0.00, 0.06, and 0.10 Zn/Fe ratios, as obtained from particle-induced X-ray emission analysis. The bimagnetic nanoparticles were produced in a one-step synthesis by the thermal decomposition of the respective acetylacetonates. The nanoparticles present an average particle size between 25 and 30 nm as inferred from transmission electron microscopy (TEM). High-resolution TEM images clearly show core-shell morphology for the particles in all samples. The core is composed by an antiferromagnetic (AFM) phase with a Wüstite (Fe1-yO) structure, whereas the shell is composed by a ZnxFe3-xO4 ferrimagnetic (FiM) spinel phase. Despite the low solubility of Zn in the Wüstite, electron energy-loss spectroscopy analysis indicates that Zn is distributed almost homogeneously in the whole nanoparticle. This result gives information on the formation mechanisms of the particle, indicating that the Wüstite is formed first, and the superficial oxidation results in the FiM ferrite phase with similar Zn concentration than the core. Magnetization and in-field Mössbauer spectroscopy of the Zn-richest nanoparticles indicate that the AFM phase is strongly coupled to the FiM structure of the ferrite shell, resulting in a bias field (HEB) appearing below TNFeO, with HEB values that depend on the core-shell relative proportion. Magnetic characterization also indicates a strong magnetic frustration for the samples with higher Zn concentration, even at low temperatures.
Idioma: Inglés
DOI: 10.1021/acs.jpcc.8b08988
Año: 2019
Publicado en: Journal of Physical Chemistry C 123, 2 (2019), 1444-1453
ISSN: 1932-7447
Factor impacto JCR: 4.189 (2019)
Categ. JCR: CHEMISTRY, PHYSICAL rank: 57 / 158 = 0.361 (2019) - Q2 - T2
Categ. JCR: NANOSCIENCE & NANOTECHNOLOGY rank: 44 / 103 = 0.427 (2019) - Q2 - T2
Categ. JCR: MATERIALS SCIENCE, MULTIDISCIPLINARY rank: 90 / 314 = 0.287 (2019) - Q2 - T1
Factor impacto SCIMAGO: 1.477 - Electronic, Optical and Magnetic Materials (Q1) - Energy (miscellaneous) (Q1) - Surfaces, Coatings and Films (Q1) - Physical and Theoretical Chemistry (Q1) - Nanoscience and Nanotechnology (Q1)
Financiación: info:eu-repo/grantAgreement/EC/H2020/734187/EU/Spin conversion, logic storage in oxide-based electronics/SPICOLOST
Tipo y forma: Artículo (PostPrint)
Área (Departamento): Área Física Materia Condensada (Dpto. Física Materia Condensa.)
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Idioma: Inglés
DOI: 10.1021/acs.jpcc.8b08988
Año: 2019
Publicado en: Journal of Physical Chemistry C 123, 2 (2019), 1444-1453
ISSN: 1932-7447
Factor impacto JCR: 4.189 (2019)
Categ. JCR: CHEMISTRY, PHYSICAL rank: 57 / 158 = 0.361 (2019) - Q2 - T2
Categ. JCR: NANOSCIENCE & NANOTECHNOLOGY rank: 44 / 103 = 0.427 (2019) - Q2 - T2
Categ. JCR: MATERIALS SCIENCE, MULTIDISCIPLINARY rank: 90 / 314 = 0.287 (2019) - Q2 - T1
Factor impacto SCIMAGO: 1.477 - Electronic, Optical and Magnetic Materials (Q1) - Energy (miscellaneous) (Q1) - Surfaces, Coatings and Films (Q1) - Physical and Theoretical Chemistry (Q1) - Nanoscience and Nanotechnology (Q1)
Financiación: info:eu-repo/grantAgreement/EC/H2020/734187/EU/Spin conversion, logic storage in oxide-based electronics/SPICOLOST
Tipo y forma: Artículo (PostPrint)
Área (Departamento): Área Física Materia Condensada (Dpto. Física Materia Condensa.)
Derechos reservados por el editor de la revistaExportado de SIDERAL (2020-07-16-09:20:58)
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Registro creado el 2020-01-03, última modificación el 2020-07-16