Magnetic properties of La0.9A0.1MnO3 (A: Li, Na, K) nanopowders and nanoceramics

Paweł Głuchowski; Ruslan Nikonkov; Robert Tomala; Wiesław Strek; Tatsiana Shulha; Maria Serdechnova; Mikhail Zheludkevich; Andrius Pakalaniškis; Ramunas Skaudžius; Aivaras Kareiva; Alexander Abramov; Andrei Kholkin; Maxim V. Bushinsky; Dmitry Karpinsky

doi:10.3390/MA13071788

Magnetic properties of La_0.9A_0.1MnO₃ (A: Li, Na, K) nanopowders and nanoceramics

Paweł Głuchowski^*
, Ruslan Nikonkov
, Robert Tomala
, Wiesław Strek
, Tatsiana Shulha
, Maria Serdechnova
, Mikhail Zheludkevich
, Andrius Pakalaniškis
, Ramunas Skaudžius
, Aivaras Kareiva
, Alexander Abramov
, Andrei Kholkin
, Maxim V. Bushinsky
, Dmitry Karpinsky

^*Corresponding author for this work

Nanoceramics Inc.
Polish Academy of Sciences
Helmholtz-Zentrum Hereon
Kiel University
Vilnius University
Ural Federal University
University of Aveiro
Belarus Academy of Sciences
South Ural State University

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Nanocrystalline La_0.9A_0.1MnO₃ (where A is Li, Na, K) powders were synthesized by a combustion method. The powders used to prepare nanoceramics were fabricated via a high-temperature sintering method. The structure and morphology of all compounds were characterized by X-ray powder diffraction (XRD) and scanning electron microscopy (SEM). It was found that the size of the crystallites depended on the type of alkali ions used. The high-pressure sintering method kept the nanosized character of the grains in the ceramics, which had a significant impact on their physical properties. Magnetization studies were performed for both powder and ceramic samples in order to check the impact of the alkali ion dopants as well as the sintering pressure on the magnetization of the compounds. It was found that, by using different dopants, it was possible to strongly change the magnetic characteristics of the manganites.

Original language	English
Article number	1788
Journal	MATERIALS
Volume	13
Issue number	7
DOIs	https://doi.org/10.3390/MA13071788
Publication status	Published - 1 Apr 2020
Externally published	Yes

Keywords

Alkali ions
Ceramics
Magnetization
Manganites
Multiferroic

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10.3390/MA13071788

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title = "Magnetic properties of La0.9A0.1MnO3 (A: Li, Na, K) nanopowders and nanoceramics",

abstract = "Nanocrystalline La0.9A0.1MnO3 (where A is Li, Na, K) powders were synthesized by a combustion method. The powders used to prepare nanoceramics were fabricated via a high-temperature sintering method. The structure and morphology of all compounds were characterized by X-ray powder diffraction (XRD) and scanning electron microscopy (SEM). It was found that the size of the crystallites depended on the type of alkali ions used. The high-pressure sintering method kept the nanosized character of the grains in the ceramics, which had a significant impact on their physical properties. Magnetization studies were performed for both powder and ceramic samples in order to check the impact of the alkali ion dopants as well as the sintering pressure on the magnetization of the compounds. It was found that, by using different dopants, it was possible to strongly change the magnetic characteristics of the manganites.",

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doi = "10.3390/MA13071788",

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volume = "13",

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T1 - Magnetic properties of La0.9A0.1MnO3 (A: Li, Na, K) nanopowders and nanoceramics

AU - Głuchowski, Paweł

AU - Nikonkov, Ruslan

AU - Tomala, Robert

AU - Strek, Wiesław

AU - Shulha, Tatsiana

AU - Serdechnova, Maria

AU - Zheludkevich, Mikhail

AU - Pakalaniškis, Andrius

AU - Skaudžius, Ramunas

AU - Kareiva, Aivaras

AU - Abramov, Alexander

AU - Kholkin, Andrei

AU - Bushinsky, Maxim V.

AU - Karpinsky, Dmitry

PY - 2020/4/1

Y1 - 2020/4/1

N2 - Nanocrystalline La0.9A0.1MnO3 (where A is Li, Na, K) powders were synthesized by a combustion method. The powders used to prepare nanoceramics were fabricated via a high-temperature sintering method. The structure and morphology of all compounds were characterized by X-ray powder diffraction (XRD) and scanning electron microscopy (SEM). It was found that the size of the crystallites depended on the type of alkali ions used. The high-pressure sintering method kept the nanosized character of the grains in the ceramics, which had a significant impact on their physical properties. Magnetization studies were performed for both powder and ceramic samples in order to check the impact of the alkali ion dopants as well as the sintering pressure on the magnetization of the compounds. It was found that, by using different dopants, it was possible to strongly change the magnetic characteristics of the manganites.

AB - Nanocrystalline La0.9A0.1MnO3 (where A is Li, Na, K) powders were synthesized by a combustion method. The powders used to prepare nanoceramics were fabricated via a high-temperature sintering method. The structure and morphology of all compounds were characterized by X-ray powder diffraction (XRD) and scanning electron microscopy (SEM). It was found that the size of the crystallites depended on the type of alkali ions used. The high-pressure sintering method kept the nanosized character of the grains in the ceramics, which had a significant impact on their physical properties. Magnetization studies were performed for both powder and ceramic samples in order to check the impact of the alkali ion dopants as well as the sintering pressure on the magnetization of the compounds. It was found that, by using different dopants, it was possible to strongly change the magnetic characteristics of the manganites.

KW - Alkali ions

KW - Ceramics

KW - Magnetization

KW - Manganites

KW - Multiferroic

UR - https://www.scopus.com/pages/publications/85084603260

U2 - 10.3390/MA13071788

DO - 10.3390/MA13071788

M3 - Article

AN - SCOPUS:85084603260

SN - 1996-1944

VL - 13

JO - MATERIALS

JF - MATERIALS

IS - 7

M1 - 1788

ER -

Magnetic properties of La_0.9A_0.1MnO₃ (A: Li, Na, K) nanopowders and nanoceramics

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Keywords

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