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Structural, electrical, and magnetic study of La-, Eu-, and Er- doped bismuth ferrite nanomaterials obtained by solution combustion synthesis

by Witkowski, Marcin , Wrzesińska, Angelika , Ryl, Jacek , Szczytko, Jacek , Gurgul, Jacek , Khort, Alexander , Szumiata, Tadeusz , Łątka, Kazimierz , Wypych-Puszkarz, Aleksandra , Kharitonov, Dmitry S.

in 639/638/298/917 / 639/638/298/920 / 639/638/549 / Bismuth / Combustion / Humanities and Social Sciences / Investigations / Magnetic properties / Magnetic studies / Magnetism / Mossbauer spectroscopy / multidisciplinary / Nanomaterials / Nanotechnology / Photoelectron spectroscopy / Science / Science (multidisciplinary) / Spectroscopy / Spectrum analysis

2021

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Structural, electrical, and magnetic study of La-, Eu-, and Er- doped bismuth ferrite nanomaterials obtained by solution combustion synthesis

2021

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Structural, electrical, and magnetic study of La-, Eu-, and Er- doped bismuth ferrite nanomaterials obtained by solution combustion synthesis

2021

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Journal Article

Structural, electrical, and magnetic study of La-, Eu-, and Er- doped bismuth ferrite nanomaterials obtained by solution combustion synthesis

Witkowski, Marcin,

Wrzesińska, Angelika,

Ryl, Jacek,

Szczytko, Jacek,

Gurgul, Jacek,

Khort, Alexander,

Szumiata, Tadeusz,

Łątka, Kazimierz,

Wypych-Puszkarz, Aleksandra,

Kharitonov, Dmitry S.

2021

Overview

In this work, the multiferroic bismuth ferrite materials Bi 0.9 RE 0.1 FeO 3 doped by rare-earth (RE = La, Eu, and Er) elements were obtained by the solution combustion synthesis. Structure, electrical, and magnetic properties of prepared samples were investigated by X-ray photoelectron spectroscopy, Mössbauer spectroscopy, electrical hysteresis measurement, broadband dielectric spectroscopy, and SQUID magnetometry. All obtained nanomaterials are characterized by spontaneous electrical polarization, which confirmed their ferroelectric properties. Investigation of magnetic properties at 300.0 K and 2.0 K showed that all investigated Bi 0.9 RE 0.1 FeO 3 ferrites possess significantly higher magnetization in comparison to bismuth ferrites obtained by different methods. The highest saturation magnetisation of 5.161 emu/g at 300.0 K was observed for the BLaFO sample, while at 2.0 K it was 12.07 emu/g for the BErFO sample. Several possible reasons for these phenomena were proposed and discussed.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ Bismuth

/ Humanities and Social Sciences

/ Investigations