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Title: In-depth structural characterization and magnetic properties ofquaternary ferrite systems Co0.5Zn0.25M0.25Fe2O4(M¼Ni, Cu, Mn, Mg) Authors: ID Ciocarlan, Radu-G., University of Antwerpen (CDE), Belgija (Author) ID Arčon, Iztok, UNG (Author) ID Pui, Aurel, University of Iasi, Romunija (Author) ID Mertens, Myrjam, VITO Flemish Institute for Technological Research, Belgija (Author) ID Novak Tušar, Nataša, UNG, KI (Author) ID Seftel, Elena M., University of Iasi, Romunija (Author) ID Cool, Pegie, University of Antwerpen (CDE), Belgija (Author) Files: This document has no files that are freely available to the public. This document may have a physical copy in the library of the organization, check the status via COBISS.  Language: English Work type: Not categorized Typology: 1.01 - Original Scientific Article Organization: UNG - University of Nova Gorica Abstract: This paper investigates the structural and magnetic properties of a mixed series of ferrites having generalformula Co0.5Zn0.25M0.25Fe2O4(M¼Ni, Cu, Mn, Mg). Insights on surface chemistry, structural andmorphological parameters are presented in order to achieve highly tuned ferrite systems with specificcharacteristics. The site occupancy of the cations in the spinel structure was determined using XAS, XRDand Raman spectroscopy. A 100% occupancy of the tetrahedral sites was observed for the Zn cations forall the samples. Co cations occupied the octahedral sites in proportion of 100% for CoeZneCu, CoeZneMg and around 80% for CoeZneNi, CoeZneMn. Ni cations were found only in the octahedral sites,while Cu 80% in the octahedral sites and Mn 60% in the octahedral sites. The cation distribution resultswere correlated with the magnetic properties data. At the same time, not only the cation distribution, butalso the particles size distribution was observed to have a great influence on magnetic and opticalproperties of the ferrites. Given the importance of the surface chemistry of the nanoparticles, XPS and FT-IR analysis were used to prove the functionalization with groups belonging to the surfactant. Moreover,the peculiar behavior of manganese in spinel structures was clarified and the origin of the multiple states(Mn2þand Mn4þ) was elucidated. Finally, parallels have been drawn between the use of different cationsin mixed ferrites in order to gain specific properties. Keywords: FerritesMagnetic propertiesSpinel nanoparticlesX-ray absorption spectroscopyCo-precipitation Publication version: Version of Record Year of publishing: 2019 Number of pages: 11 Numbering: 0, 0 PID: 20.500.12556/RUNG-4813-a8e81450-5ebb-dec9-37aa-3f8b00591dcb  COBISS.SI-ID: 5471483  DOI: /doi.org/10.1016/j.jallcom.2019.152674  NUK URN: URN:SI:UNG:REP:IUD3QFGZ Publication date in RUNG: 23.10.2019 Views: 3210 Downloads: 0 Metadata:     Cite this work Plain text BibTeX EndNote XML EndNote/Refer RIS ABNT ACM Ref AMA APA Chicago 17th Author-Date Harvard IEEE ISO 690 MLA Vancouver : Copy citation

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Title:	Journal of Alloys and Compounds
Year of publishing:	2019

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