Ferromagnetic behaviour of ZnO: The role of grain boundaries

Boris B. Straumal; Svetlana G. Protasova; Andrei A. Mazilkin; Eberhard Goering; Gisela Schütz; Petr B. Straumal; Brigitte Baretzky

doi:10.3762/bjnano.7.185

Ferromagnetic behaviour of ZnO: The role of grain boundaries

Boris B. Straumal
, Svetlana G. Protasova
, Andrei A. Mazilkin
, Eberhard Goering
, Gisela Schütz
, Petr B. Straumal
, Brigitte Baretzky

Humanoid Technologies Lab (H2T)
RAS
Max Planck Institute for Intelligent Systems
National University Of Science And Technology Misis
Russian Academy of Sciences

Research output: Contribution to journal › Review article › peer-review

126 Scopus citations

Abstract

The possibility to attain ferromagnetic properties in transparent semiconductor oxides such as ZnO is very promising for future spintronic applications. We demonstrate in this review that ferromagnetism is not an intrinsic property of the ZnO crystalline lattice but is that of ZnO/ZnO grain boundaries. If a ZnO polycrystal contains enough grain boundaries, it can transform into the ferromagnetic state even without doping with "magnetic atoms" such as Mn, Co, Fe or Ni. However, such doping facilitates the appearance of ferromagnetism in ZnO. It increases the saturation magnetisation and decreases the critical amount of grain boundaries needed for FM. A drastic increase of the total solubility of dopants in ZnO with decreasing grain size has been also observed. It is explained by the multilayer grain boundary segregation.

Original language	English
Pages (from-to)	1936-1947
Number of pages	12
Journal	Beilstein Journal of Nanotechnology
Volume	7
Issue number	1
DOIs	https://doi.org/10.3762/bjnano.7.185
State	Published - 2016
Externally published	Yes

Keywords

Ferromagnetism
Grain boundaries
Zinc(II) oxide (ZnO)

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10.3762/bjnano.7.185

Cite this

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title = "Ferromagnetic behaviour of ZnO: The role of grain boundaries",

abstract = "The possibility to attain ferromagnetic properties in transparent semiconductor oxides such as ZnO is very promising for future spintronic applications. We demonstrate in this review that ferromagnetism is not an intrinsic property of the ZnO crystalline lattice but is that of ZnO/ZnO grain boundaries. If a ZnO polycrystal contains enough grain boundaries, it can transform into the ferromagnetic state even without doping with {"}magnetic atoms{"} such as Mn, Co, Fe or Ni. However, such doping facilitates the appearance of ferromagnetism in ZnO. It increases the saturation magnetisation and decreases the critical amount of grain boundaries needed for FM. A drastic increase of the total solubility of dopants in ZnO with decreasing grain size has been also observed. It is explained by the multilayer grain boundary segregation.",

keywords = "Ferromagnetism, Grain boundaries, Zinc(II) oxide (ZnO)",

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doi = "10.3762/bjnano.7.185",

language = "English",

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pages = "1936--1947",

journal = "Beilstein Journal of Nanotechnology",

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T1 - Ferromagnetic behaviour of ZnO

T2 - The role of grain boundaries

AU - Straumal, Boris B.

AU - Protasova, Svetlana G.

AU - Mazilkin, Andrei A.

AU - Goering, Eberhard

AU - Schütz, Gisela

AU - Straumal, Petr B.

AU - Baretzky, Brigitte

PY - 2016

Y1 - 2016

N2 - The possibility to attain ferromagnetic properties in transparent semiconductor oxides such as ZnO is very promising for future spintronic applications. We demonstrate in this review that ferromagnetism is not an intrinsic property of the ZnO crystalline lattice but is that of ZnO/ZnO grain boundaries. If a ZnO polycrystal contains enough grain boundaries, it can transform into the ferromagnetic state even without doping with "magnetic atoms" such as Mn, Co, Fe or Ni. However, such doping facilitates the appearance of ferromagnetism in ZnO. It increases the saturation magnetisation and decreases the critical amount of grain boundaries needed for FM. A drastic increase of the total solubility of dopants in ZnO with decreasing grain size has been also observed. It is explained by the multilayer grain boundary segregation.

AB - The possibility to attain ferromagnetic properties in transparent semiconductor oxides such as ZnO is very promising for future spintronic applications. We demonstrate in this review that ferromagnetism is not an intrinsic property of the ZnO crystalline lattice but is that of ZnO/ZnO grain boundaries. If a ZnO polycrystal contains enough grain boundaries, it can transform into the ferromagnetic state even without doping with "magnetic atoms" such as Mn, Co, Fe or Ni. However, such doping facilitates the appearance of ferromagnetism in ZnO. It increases the saturation magnetisation and decreases the critical amount of grain boundaries needed for FM. A drastic increase of the total solubility of dopants in ZnO with decreasing grain size has been also observed. It is explained by the multilayer grain boundary segregation.

KW - Ferromagnetism

KW - Grain boundaries

KW - Zinc(II) oxide (ZnO)

UR - https://www.scopus.com/pages/publications/85015330528

U2 - 10.3762/bjnano.7.185

DO - 10.3762/bjnano.7.185

M3 - Review article

AN - SCOPUS:85015330528

SN - 2190-4286

VL - 7

SP - 1936

EP - 1947

JO - Beilstein Journal of Nanotechnology

JF - Beilstein Journal of Nanotechnology

IS - 1

ER -

Ferromagnetic behaviour of ZnO: The role of grain boundaries

Abstract

Keywords

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