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Effect of solvent composition on the structural and magnetic properties of MnZn ferrite nanoparticles obtained by hydrothermal synthesis (Articolo in rivista)

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Effect of solvent composition on the structural and magnetic properties of MnZn ferrite nanoparticles obtained by hydrothermal synthesis (Articolo in rivista) (literal)

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Freire R.M.[ 1 ]; Freitas P.G.C.[ 1 ]; Ribeiro T.S.[ 2 ]; Vasconcelos I.F.[ 2 ]; Denardin J.C.[ 3 ]; Mele G.[ 4 ]; Carbone L.[ 5 ]; Mazzetto S.E.[ 1 ] ; Fechine P.B.A.[ 1 ] (2014)
Effect of solvent composition on the structural and magnetic properties of MnZn ferrite nanoparticles obtained by hydrothermal synthesis
in Microfluidics and nanofluidics (Internet)
(literal)

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Freire R.M.[ 1 ]; Freitas P.G.C.[ 1 ]; Ribeiro T.S.[ 2 ]; Vasconcelos I.F.[ 2 ]; Denardin J.C.[ 3 ]; Mele G.[ 4 ]; Carbone L.[ 5 ]; Mazzetto S.E.[ 1 ] ; Fechine P.B.A.[ 1 ] (literal)

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[ 1 ] Univ Fed Ceara, Dept Quim Analit & Fisicoquim, Grp Quim Mat Avancados GQMAT, BR-60451970 Fortaleza, CE, Brazil [ 2 ] Univ Fed Ceara, Dept Engn Met & Mat, BR-60451970 Fortaleza, CE, Brazil [ 3 ] Univ Santiago Chile, Dept Fis, USACH, Santiago, Chile [ 4 ] Univ Salento, Dipartimento Ingn Innovaz, I-73100 Lecce, Italy [ 5 ] Ist Nanosci UOS Lecce, NNL, I-73100 Lecce, Italy (literal)

Titolo

Effect of solvent composition on the structural and magnetic properties of MnZn ferrite nanoparticles obtained by hydrothermal synthesis (literal)

Abstract

Samples of manganese-zinc (MnZn) ferrites were successfully prepared by hydrothermal syntheses using different compositions of the reactive system (H2O)(1-x) :(EG) (x) (x = 0, 0.2, 0.4, 0.6, 0.8, and 1.0), where EG = ethylene glycol. The samples were fully investigated by powder X-ray diffraction, Fourier transform infrared spectroscopy for both liquid and solid specimens, Mossbauer spectroscopy, vibrating sample magnetometer, and transmission electron microscopy. All the MnZn ferrites presented spinel phase and average particle diameters between 3.1 and 12.1 nm. The increase in the x values results in a decrease in the particle sizes. The FTIR spectra performed in liquid phase showed significant interaction between EG and metallic precursors used in the synthesis. Magnetic features as for instance saturation magnetization (M (S)) also decreases upon increasing the x values. In addition, all synthesized samples exhibited a superparamagnetic character at room temperature. The experimental methodology presented in this work is used to obtain superparamagnetic nanoparticles with controlled size (smaller than 13 nm) and morphology. (literal)

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