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Wafer-scale epitaxial single-crystalline Ni(111) films on sapphires for graphene growth
by
Wu, Ruinan
, Cheng, Feiyu
, Zhang, Qi
, Huang, Rong
, Li, Peisen
, Peng, Junping
, Chen, Dixiang
, Hu, Jiafei
, Hu, Yueguo
, Li, Fangsen
, Pan, Mengchun
, Hu, Nan
, Qiu, Weicheng
in
Aluminum oxide
/ Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Classical Mechanics
/ Crystal structure
/ Crystallinity
/ Crystallization
/ Crystallography and Scattering Methods
/ Crystals
/ Electronic Materials
/ energy
/ Epitaxial growth
/ Epitaxy
/ Grain boundaries
/ Grain growth
/ Graphene
/ Graphite
/ Magnetic films
/ magnetism
/ Materials Science
/ Polymer Sciences
/ Sapphire
/ Single crystals
/ Solid Mechanics
/ Spintronics
/ Structure
/ Substrates
/ Twinning (Crystallography)
2021
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Wafer-scale epitaxial single-crystalline Ni(111) films on sapphires for graphene growth
by
Wu, Ruinan
, Cheng, Feiyu
, Zhang, Qi
, Huang, Rong
, Li, Peisen
, Peng, Junping
, Chen, Dixiang
, Hu, Jiafei
, Hu, Yueguo
, Li, Fangsen
, Pan, Mengchun
, Hu, Nan
, Qiu, Weicheng
in
Aluminum oxide
/ Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Classical Mechanics
/ Crystal structure
/ Crystallinity
/ Crystallization
/ Crystallography and Scattering Methods
/ Crystals
/ Electronic Materials
/ energy
/ Epitaxial growth
/ Epitaxy
/ Grain boundaries
/ Grain growth
/ Graphene
/ Graphite
/ Magnetic films
/ magnetism
/ Materials Science
/ Polymer Sciences
/ Sapphire
/ Single crystals
/ Solid Mechanics
/ Spintronics
/ Structure
/ Substrates
/ Twinning (Crystallography)
2021
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Wafer-scale epitaxial single-crystalline Ni(111) films on sapphires for graphene growth
by
Wu, Ruinan
, Cheng, Feiyu
, Zhang, Qi
, Huang, Rong
, Li, Peisen
, Peng, Junping
, Chen, Dixiang
, Hu, Jiafei
, Hu, Yueguo
, Li, Fangsen
, Pan, Mengchun
, Hu, Nan
, Qiu, Weicheng
in
Aluminum oxide
/ Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Classical Mechanics
/ Crystal structure
/ Crystallinity
/ Crystallization
/ Crystallography and Scattering Methods
/ Crystals
/ Electronic Materials
/ energy
/ Epitaxial growth
/ Epitaxy
/ Grain boundaries
/ Grain growth
/ Graphene
/ Graphite
/ Magnetic films
/ magnetism
/ Materials Science
/ Polymer Sciences
/ Sapphire
/ Single crystals
/ Solid Mechanics
/ Spintronics
/ Structure
/ Substrates
/ Twinning (Crystallography)
2021
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Wafer-scale epitaxial single-crystalline Ni(111) films on sapphires for graphene growth
Journal Article
Wafer-scale epitaxial single-crystalline Ni(111) films on sapphires for graphene growth
2021
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Overview
The growth of graphene on Ni magnetic films is of great significance for graphene spintronics, whereas the existence of grain boundaries and twin crystal structures in Ni films is an obstacle for obtaining the large-scale and uniform graphene. In this paper, an epitaxial wafer-scale single-crystalline Ni(111) film with the flat and clean surface was successfully prepared on the commercial
α
-Al
2
O
3
(0001) substrate by a two-step method, which was demonstrated with several characterization methods. According to the abnormal grain growth mechanism, the clean and uniform sapphire surface plays a key role for the single crystallization of Ni films as it induces a weak interface energy difference between two atomic stacking structures (
ABC
and
ACB
), thus stimulating the evolution of Ni films from (111) out-of-plane textures to single crystals. Furthermore, an ultra-flat and wrinkle-free graphene monolayer was synthesized on the prepared Ni film, which further verified its high quality and effectiveness.
Graphic abstract
Publisher
Springer US,Springer,Springer Nature B.V
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