Atomic structural analysis of a monolayer epitaxial film of hexagonal boron nitride/Ni(111) studied by LEED intensity analysis

Yasuo Gamou; Masayuki Terai; Ayato Nagashima; Chuhei Oshima

Atomic structural analysis of a monolayer epitaxial film of hexagonal boron nitride/Ni(111) studied by LEED intensity analysis

Yasuo Gamou^*, Masayuki Terai, Ayato Nagashima, Chuhei Oshima

^*この研究の対応する著者

早稲田大学

研究成果: Article › 査読

54 被引用数 (Scopus)

抄録

The atomic structure of a monolayer epitaxial film of hexagonal boron nitride (h-BN) formed on a Ni(111) surface was investigated by means of LEED intensity analysis. We measured the I-V curves of the (1,0), (0,1) and (1,1) diffraction spots from a 1 × 1 atomic structure, and analyzed them by using Van Hove's analytical program based on dynamical theory. Six different atomic structural models meeting the experimental requirement of the 3-m symmetry were evaluated with Pendry's reliability factor. The final best-fit structure characterized by the minimum Pendry's reliability factor of 0.27 is as follows; the nitrogen atom in a unit cell of the h-BN overlayer is located at the on-top site of the topmost Ni atoms, while the boron atom exists at the fcc-hollow site. The spacings between the nitrogen (boron) atom and the topmost Ni layer is 2.04 Å (2.2 Å) , which is much narrower than the interlayer spacing in bulk h-BN (3.33 Å).

本文言語	English
ページ（範囲）	211-214
ページ数	4
ジャーナル	Science Reports of the Rerearch Institutes Tohoku University Series A-Physics
巻	44
号	2
出版ステータス	Published - 1997 3月

ASJC Scopus subject areas

凝縮系物理学
金属および合金

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title = "Atomic structural analysis of a monolayer epitaxial film of hexagonal boron nitride/Ni(111) studied by LEED intensity analysis",

abstract = "The atomic structure of a monolayer epitaxial film of hexagonal boron nitride (h-BN) formed on a Ni(111) surface was investigated by means of LEED intensity analysis. We measured the I-V curves of the (1,0), (0,1) and (1,1) diffraction spots from a 1 × 1 atomic structure, and analyzed them by using Van Hove's analytical program based on dynamical theory. Six different atomic structural models meeting the experimental requirement of the 3-m symmetry were evaluated with Pendry's reliability factor. The final best-fit structure characterized by the minimum Pendry's reliability factor of 0.27 is as follows; the nitrogen atom in a unit cell of the h-BN overlayer is located at the on-top site of the topmost Ni atoms, while the boron atom exists at the fcc-hollow site. The spacings between the nitrogen (boron) atom and the topmost Ni layer is 2.04 {\AA} (2.2 {\AA}) , which is much narrower than the interlayer spacing in bulk h-BN (3.33 {\AA}).",

keywords = "Epitaxial film, h-BN, LEED analysis, Monolayer, Rumpling structure",

author = "Yasuo Gamou and Masayuki Terai and Ayato Nagashima and Chuhei Oshima",

year = "1997",

month = mar,

language = "English",

volume = "44",

pages = "211--214",

journal = "Science Reports of the Rerearch Institutes Tohoku University Series A-Physics",

issn = "0040-8808",

publisher = "Tohoku University",

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TY - JOUR

T1 - Atomic structural analysis of a monolayer epitaxial film of hexagonal boron nitride/Ni(111) studied by LEED intensity analysis

AU - Gamou, Yasuo

AU - Terai, Masayuki

AU - Nagashima, Ayato

AU - Oshima, Chuhei

PY - 1997/3

Y1 - 1997/3

N2 - The atomic structure of a monolayer epitaxial film of hexagonal boron nitride (h-BN) formed on a Ni(111) surface was investigated by means of LEED intensity analysis. We measured the I-V curves of the (1,0), (0,1) and (1,1) diffraction spots from a 1 × 1 atomic structure, and analyzed them by using Van Hove's analytical program based on dynamical theory. Six different atomic structural models meeting the experimental requirement of the 3-m symmetry were evaluated with Pendry's reliability factor. The final best-fit structure characterized by the minimum Pendry's reliability factor of 0.27 is as follows; the nitrogen atom in a unit cell of the h-BN overlayer is located at the on-top site of the topmost Ni atoms, while the boron atom exists at the fcc-hollow site. The spacings between the nitrogen (boron) atom and the topmost Ni layer is 2.04 Å (2.2 Å) , which is much narrower than the interlayer spacing in bulk h-BN (3.33 Å).

AB - The atomic structure of a monolayer epitaxial film of hexagonal boron nitride (h-BN) formed on a Ni(111) surface was investigated by means of LEED intensity analysis. We measured the I-V curves of the (1,0), (0,1) and (1,1) diffraction spots from a 1 × 1 atomic structure, and analyzed them by using Van Hove's analytical program based on dynamical theory. Six different atomic structural models meeting the experimental requirement of the 3-m symmetry were evaluated with Pendry's reliability factor. The final best-fit structure characterized by the minimum Pendry's reliability factor of 0.27 is as follows; the nitrogen atom in a unit cell of the h-BN overlayer is located at the on-top site of the topmost Ni atoms, while the boron atom exists at the fcc-hollow site. The spacings between the nitrogen (boron) atom and the topmost Ni layer is 2.04 Å (2.2 Å) , which is much narrower than the interlayer spacing in bulk h-BN (3.33 Å).

KW - Epitaxial film

KW - h-BN

KW - LEED analysis

KW - Monolayer

KW - Rumpling structure

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