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Stranski-Krastanov and Volmer-Weber CVD Growth Regimes To Control the Stacking Order in Bilayer Graphene

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Title
Stranski-Krastanov and Volmer-Weber CVD Growth Regimes To Control the Stacking Order in Bilayer Graphene
Author(s)
Huy Q. Ta; David J. Perello; Dinh Loc Duong; Gang Hee Han; Sandeep Gorantl; Van Luan Nguyen; Alicja Bachmatiuk; Slava V. Rotkin; Young Hee Lee; Mark H. Rümmeli
Subject
Bilayer graphene, ; stacking order, ; stacking control, ; hydrogen role, ; growth mechanism
Publication Date
2016-10
Journal
NANO LETTERS, v.16, no.10, pp.6403 - 6410
Publisher
AMER CHEMICAL SOC
Abstract
Aside from unusual properties of monolayer graphene, bilayer has been shown to have even more interesting physics, in particular allowing bandgap opening with dual gating for proper interlayer symmetry. Such properties, promising for device applications, ignited significant interest in understanding and controlling the growth of bilayer graphene. Here we systematically investigate a broad set of flow rates and relative gas ratio of CH4 to H2 in atmospheric pressure chemical vapor deposition of multilayered graphene. Two very different growth windows are identified. For relatively high CH4 to H2 ratios, graphene growth is relatively rapid with an initial first full layer forming in seconds upon which new graphene flakes nucleate then grow on top of the first layer. The stacking of these flakes versus the initial graphene layer is mostly turbostratic. This growth mode can be likened to Stranski-Krastanov growth. With relatively low CH4 to H2 ratios, growth rates are reduced due to a lower carbon supply rate. In addition bi-, tri-, and few-layer flakes form directly over the Cu substrate as individual islands. Etching studies show that in this growth mode subsequent layers form beneath the first layer presumably through carbon radical intercalation. This growth mode is similar to that found with Volmer-Weber growth and was shown to produce highly oriented AB-stacked materials. These systematic studies provide new insight into bilayer graphene formation and define the synthetic range where gapped bilayer graphene can be reliably produced. © 2016 American Chemical Society
URI
https://pr.ibs.re.kr/handle/8788114/3267
DOI
10.1021/acs.nanolett.6b02826
ISSN
1530-6984
Appears in Collections:
Center for Integrated Nanostructure Physics(나노구조물리 연구단) > 1. Journal Papers (저널논문)
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