Electronic and magnetism properties of two-dimensional stacked nickel hydroxides and nitrides

Two-dimensional (2D) layered materials receive a lot of attention because of their outstanding intrinsic properties and wide applications. In this work, the structural, electronic and magnetic properties of nickel hydroxides (Ni(OH) 2 ) and nitrides XN (X = B, Al and Ga) heterostructures are studied...

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Published inScientific reports Vol. 5; no. 1; p. 11656
Main Authors Wei, Xiao-Lin, Tang, Zhen-Kun, Guo, Gen-Cai, Ma, Shangyi, Liu, Li-Min
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 26.06.2015
Nature Publishing Group
Subjects
119/118
639/301/119/995
639/766/119
Electrons
Humanities and Social Sciences
Hydroxides
Magnetic properties
Magnetism
multidisciplinary
Nickel
Science
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Abstract Two-dimensional (2D) layered materials receive a lot of attention because of their outstanding intrinsic properties and wide applications. In this work, the structural, electronic and magnetic properties of nickel hydroxides (Ni(OH) 2 ) and nitrides XN (X = B, Al and Ga) heterostructures are studied by first-principles calculations. The results show that the pristine monolayer Ni(OH) 2 owns no macro magnetism with antiferromagnetic (AFM) coupling between two nearest Ni atoms, the electronic structure can be modulated through the heterostructures. The Ni(OH) 2 -GaN and Ni(OH) 2 -AlN heterostructures retain the AFM coupling, while Ni(OH) 2 -BN heterostructure have a larger magnetic moment with ferromagnetic (FM) coupling. The complete electron–hole separation is found in the Ni(OH) 2 -GaN heterostructure. The tunable electronic and magnetic properties of the Ni(OH) 2 -XN heterostructures open a new door to design the spintronic devices in the 2D stacked nanostructures.
AbstractList Abstract Two-dimensional (2D) layered materials receive a lot of attention because of their outstanding intrinsic properties and wide applications. In this work, the structural, electronic and magnetic properties of nickel hydroxides (Ni(OH) 2 ) and nitrides XN (X = B, Al and Ga) heterostructures are studied by first-principles calculations. The results show that the pristine monolayer Ni(OH) 2 owns no macro magnetism with antiferromagnetic (AFM) coupling between two nearest Ni atoms, the electronic structure can be modulated through the heterostructures. The Ni(OH) 2 -GaN and Ni(OH) 2 -AlN heterostructures retain the AFM coupling, while Ni(OH) 2 -BN heterostructure have a larger magnetic moment with ferromagnetic (FM) coupling. The complete electron–hole separation is found in the Ni(OH) 2 -GaN heterostructure. The tunable electronic and magnetic properties of the Ni(OH) 2 -XN heterostructures open a new door to design the spintronic devices in the 2D stacked nanostructures.
Two-dimensional (2D) layered materials receive a lot of attention because of their outstanding intrinsic properties and wide applications. In this work, the structural, electronic and magnetic properties of nickel hydroxides (Ni(OH)2) and nitrides XN (X = B, Al, and Ga) heterostructures are studied by first-principles calculations. The results show that the pristine monolayer Ni(OH)2 owns no macro magnetism with antiferromagnetic (AFM) coupling between two nearest Ni atoms, the electronic structure can be modulated through the heterostructures. The Ni(OH)2-GaN and Ni(OH)2-AlN heterostructures retain the AFM coupling, while Ni(OH)2-BN heterostructure have a larger magnetic moment with ferromagnetic (FM) coupling. The complete electron-hole separation is found in the Ni(OH)2-GaN heterostructure. The tunable electronic and magnetic properties of the Ni(OH)2-XN heterostructures open a new door to design the spintronic devices in the 2D stacked nanostructures.
Two-dimensional (2D) layered materials receive a lot of attention because of their outstanding intrinsic properties and wide applications. In this work, the structural, electronic and magnetic properties of nickel hydroxides (Ni(OH) 2 ) and nitrides XN (X = B, Al, and Ga) heterostructures are studied by first-principles calculations. The results show that the pristine monolayer Ni(OH) 2 owns no macro magnetism with antiferromagnetic (AFM) coupling between two nearest Ni atoms, the electronic structure can be modulated through the heterostructures. The Ni(OH) 2 -GaN and Ni(OH) 2 -AlN heterostructures retain the AFM coupling, while Ni(OH) 2 -BN heterostructure have a larger magnetic moment with ferromagnetic (FM) coupling. The complete electron–hole separation is found in the Ni(OH) 2 -GaN heterostructure. The tunable electronic and magnetic properties of the Ni(OH) 2 -XN heterostructures open a new door to design the spintronic devices in the 2D stacked nanostructures.
ArticleNumber 11656
Author Tang, Zhen-Kun
Ma, Shangyi
Guo, Gen-Cai
Liu, Li-Min
Wei, Xiao-Lin
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Snippet Two-dimensional (2D) layered materials receive a lot of attention because of their outstanding intrinsic properties and wide applications. In this work, the...
Abstract Two-dimensional (2D) layered materials receive a lot of attention because of their outstanding intrinsic properties and wide applications. In this...
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StartPage 11656
SubjectTerms 119/118
639/301/119/995
639/766/119
Electrons
Humanities and Social Sciences
Hydroxides
Magnetic properties
Magnetism
multidisciplinary
Nickel
Science
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Title Electronic and magnetism properties of two-dimensional stacked nickel hydroxides and nitrides
URI https://link.springer.com/article/10.1038/srep11656
https://www.ncbi.nlm.nih.gov/pubmed/26111476
https://www.proquest.com/docview/1899482292
https://pubmed.ncbi.nlm.nih.gov/PMC4481523
Volume 5
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