Article ID Journal Published Year Pages File Type
539324 Microelectronic Engineering 2014 8 Pages PDF
Abstract

•Zn1−xMnxFe2O4 nanoparticles were prepared by hydrothermal method at 180 °C for 8 h.•XANES result obtained at the Zn K-edge confirmed that the oxidation state of Zn is +2.•XANES result obtained at the Mn and Fe K-edge confirmed that the oxidation state of Mn is +2 and +3.•The simulation XANES spectra confirmed the existence of ZnFe2O4, (Zn,Mn,Fe)3O4 and (Mn,Fe)2O4 phases in samples.•The saturation magnetizations are in the range of 16–43 emu/g.

Zn1−xMnxFe2O4 nanoparticles (x = 0, 0.2, 0.4, 0.6, 0.8, and 1) were prepared by a novel hydrothermal method. The obtained samples were characterized by XRD, SEM, TEM, FT-IR, VSM, and XANES. The results of XRD, SEM and TEM showed that all samples were cubic spinel structure with the crystallite size in the range of 12–18 nm. Lattice parameters were found to be increased with increasing Mn content. The IR spectra of Zn1−xMnxFe2O4 nanoparticles revealed the intrinsic stretching vibrational modes of the metals at the tetrahedral and octahedral sites. The measurements of magnetic properties at room temperature by VSM show that all samples behaved ferromagnetic with magnetization (M) and coercivity in the range of 16–43 emu/g and 32–72 Oe, respectively. These results indicate that some Mn2+ ions can substitute Fe2+ ions at the B site and some Mn3+ ions can substitute Fe3+ ion at both A and B sites. XANES results obtained at the Zn, Mn and Fe K-edge confirm that the oxidation state of Zn is +2 and those of both Mn and Fe are the same with the value of +2 and +3. In addition, the simulation XANES spectra confirm the existence of ZnFe2O4, (Zn,Mn,Fe)3O4 and (Mn,Fe)2O4 phases in samples which cause the decrease of the magnetization.

Graphical abstractThis figure shows the experimental and calculation Zn K-edge XANES spectra of Zn1−xMnxFe2O4 nanoparticles. Both results are in good agreement indicating the Zn oxidation state of +2 at both tetrahedral and octahedral sites of the normal and inverse spinels, which affect the magnetization of samples.Figure optionsDownload full-size imageDownload as PowerPoint slide

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