Electronic structure of graphene on Ni surfaces with different orientation

D.A. Pudikov, E.V. Zhizhin, A.G. Rybkin, A.A. Rybkina, Y.M. Zhukov, O. Yu. Vilkov, A.M. Shikin

Результат исследований: Научные публикации в периодических изданияхстатья

1 цитирование (Scopus)

Выдержка

An experimental study of the graphene, synthesized by propylene cracking on Ni surfaces with different orientation: (100) and (111), using angle-resolved photoemission, has been performed. It has been shown that graphene on Ni(111) had a perfect lateral structure due to consistency of their lattices, whereas graphene/Ni(100) consisted of a lot of domains. For both systems electronic structure was quite similar and demonstrated a strong bonding of graphene to the underlying Ni surface. After Au intercalation the electronic structure of graphene in both systems was shifted to the Fermi level and became linear in the vicinity of the K point of the Brillouin zone.
Язык оригиналаанглийский
Страницы (с-по)189-193
ЖурналMaterials Chemistry and Physics
Том179
СостояниеОпубликовано - 2016

Отпечаток

Graphite
Graphene
Electronic structure
graphene
electronic structure
Photoemission
Intercalation
Fermi level
propylene
Brillouin zones
intercalation
Propylene
photoelectric emission

Цитировать

Pudikov, D.A. ; Zhizhin, E.V. ; Rybkin, A.G. ; Rybkina, A.A. ; Zhukov, Y.M. ; Vilkov, O. Yu. ; Shikin, A.M. / Electronic structure of graphene on Ni surfaces with different orientation. В: Materials Chemistry and Physics. 2016 ; Том 179. стр. 189-193.
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abstract = "An experimental study of the graphene, synthesized by propylene cracking on Ni surfaces with different orientation: (100) and (111), using angle-resolved photoemission, has been performed. It has been shown that graphene on Ni(111) had a perfect lateral structure due to consistency of their lattices, whereas graphene/Ni(100) consisted of a lot of domains. For both systems electronic structure was quite similar and demonstrated a strong bonding of graphene to the underlying Ni surface. After Au intercalation the electronic structure of graphene in both systems was shifted to the Fermi level and became linear in the vicinity of the K point of the Brillouin zone.",
keywords = "Electronic structure, Monolayers, Chemical vapour deposition (CVD), Photoelectron spectroscopy, Low energy electron diffraction (LEED)",
author = "D.A. Pudikov and E.V. Zhizhin and A.G. Rybkin and A.A. Rybkina and Y.M. Zhukov and Vilkov, {O. Yu.} and A.M. Shikin",
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Electronic structure of graphene on Ni surfaces with different orientation. / Pudikov, D.A.; Zhizhin, E.V.; Rybkin, A.G.; Rybkina, A.A.; Zhukov, Y.M.; Vilkov, O. Yu.; Shikin, A.M.

В: Materials Chemistry and Physics, Том 179, 2016, стр. 189-193.

Результат исследований: Научные публикации в периодических изданияхстатья

TY - JOUR

T1 - Electronic structure of graphene on Ni surfaces with different orientation

AU - Pudikov, D.A.

AU - Zhizhin, E.V.

AU - Rybkin, A.G.

AU - Rybkina, A.A.

AU - Zhukov, Y.M.

AU - Vilkov, O. Yu.

AU - Shikin, A.M.

PY - 2016

Y1 - 2016

N2 - An experimental study of the graphene, synthesized by propylene cracking on Ni surfaces with different orientation: (100) and (111), using angle-resolved photoemission, has been performed. It has been shown that graphene on Ni(111) had a perfect lateral structure due to consistency of their lattices, whereas graphene/Ni(100) consisted of a lot of domains. For both systems electronic structure was quite similar and demonstrated a strong bonding of graphene to the underlying Ni surface. After Au intercalation the electronic structure of graphene in both systems was shifted to the Fermi level and became linear in the vicinity of the K point of the Brillouin zone.

AB - An experimental study of the graphene, synthesized by propylene cracking on Ni surfaces with different orientation: (100) and (111), using angle-resolved photoemission, has been performed. It has been shown that graphene on Ni(111) had a perfect lateral structure due to consistency of their lattices, whereas graphene/Ni(100) consisted of a lot of domains. For both systems electronic structure was quite similar and demonstrated a strong bonding of graphene to the underlying Ni surface. After Au intercalation the electronic structure of graphene in both systems was shifted to the Fermi level and became linear in the vicinity of the K point of the Brillouin zone.

KW - Electronic structure

KW - Monolayers

KW - Chemical vapour deposition (CVD)

KW - Photoelectron spectroscopy

KW - Low energy electron diffraction (LEED)

M3 - Article

VL - 179

SP - 189

EP - 193

JO - Materials Chemistry and Physics

JF - Materials Chemistry and Physics

SN - 0254-0584

ER -