The influence of cu lattices on the structure and electrical properties of graphene domains during low-pressure chemical vapor deposition

Dae Woo Kim; Seon Joon Kim; Jae Sung Kim; Minju Shin; Gyu Tae Kim; Hee Tae Jung

doi:10.1002/cphc.201402633

The influence of cu lattices on the structure and electrical properties of graphene domains during low-pressure chemical vapor deposition

Dae Woo Kim, Seon Joon Kim, Jae Sung Kim, Minju Shin, Gyu Tae Kim, Hee Tae Jung

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

The influence of various Cu lattices on the texturing of graphene domains during low-pressure chemical vapor deposition was investigated in a large area. The results show that the sizes and shapes of graphene domains grown on Cu(111) substrates match well with those of the underlying Cu(111) domains, which seem to be quasi-single-crystalline. In contrast, on other Cu substrates such as (100) and more intermediate domains, graphene islands with poly-domains (ca. 85 %) are significantly nucleated, eventually merging into polycrystalline graphene. Within the overall channel-length range, graphene from a Cu foil shows a higher resistance compared to graphene from a Cu(111) domain, with the extracted average channel resistances being 34.51 Ω μm^-1 for Cu(111) and 66.17 Ω μm^-1 for the Cu foil.

Original language	English
Pages (from-to)	1165-1171
Number of pages	7
Journal	ChemPhysChem
Volume	16
Issue number	6
DOIs	https://doi.org/10.1002/cphc.201402633
Publication status	Published - 2015 Apr 27

Bibliographical note

Publisher Copyright:
© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Keywords

Cu domains
chemical vapor deposition
epitaxy
graphene
single crystals

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Physical and Theoretical Chemistry

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10.1002/cphc.201402633

Cite this

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title = "The influence of cu lattices on the structure and electrical properties of graphene domains during low-pressure chemical vapor deposition",

abstract = "The influence of various Cu lattices on the texturing of graphene domains during low-pressure chemical vapor deposition was investigated in a large area. The results show that the sizes and shapes of graphene domains grown on Cu(111) substrates match well with those of the underlying Cu(111) domains, which seem to be quasi-single-crystalline. In contrast, on other Cu substrates such as (100) and more intermediate domains, graphene islands with poly-domains (ca. 85 %) are significantly nucleated, eventually merging into polycrystalline graphene. Within the overall channel-length range, graphene from a Cu foil shows a higher resistance compared to graphene from a Cu(111) domain, with the extracted average channel resistances being 34.51 Ω μm-1 for Cu(111) and 66.17 Ω μm-1 for the Cu foil.",

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author = "Kim, {Dae Woo} and Kim, {Seon Joon} and Kim, {Jae Sung} and Minju Shin and Kim, {Gyu Tae} and Jung, {Hee Tae}",

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AU - Kim, Dae Woo

AU - Kim, Seon Joon

AU - Kim, Jae Sung

AU - Shin, Minju

AU - Kim, Gyu Tae

AU - Jung, Hee Tae

PY - 2015/4/27

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AB - The influence of various Cu lattices on the texturing of graphene domains during low-pressure chemical vapor deposition was investigated in a large area. The results show that the sizes and shapes of graphene domains grown on Cu(111) substrates match well with those of the underlying Cu(111) domains, which seem to be quasi-single-crystalline. In contrast, on other Cu substrates such as (100) and more intermediate domains, graphene islands with poly-domains (ca. 85 %) are significantly nucleated, eventually merging into polycrystalline graphene. Within the overall channel-length range, graphene from a Cu foil shows a higher resistance compared to graphene from a Cu(111) domain, with the extracted average channel resistances being 34.51 Ω μm-1 for Cu(111) and 66.17 Ω μm-1 for the Cu foil.

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KW - chemical vapor deposition

KW - epitaxy

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The influence of cu lattices on the structure and electrical properties of graphene domains during low-pressure chemical vapor deposition

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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