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Contrasting diffusion behaviors of O and F atoms on graphene and within bilayer graphene

Authors
Yi, SehoChoi, Jin-HoKim, Hyun-JungPark, Chul HongCho, Jun-Hyung
Issue Date
Apr-2017
Publisher
Royal Society of Chemistry
Citation
Physical Chemistry Chemical Physics, v.19, no.13, pp 9107 - 9112
Pages
6
Indexed
SCI
SCIE
SCOPUS
Journal Title
Physical Chemistry Chemical Physics
Volume
19
Number
13
Start Page
9107
End Page
9112
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/152623
DOI
10.1039/c7cp00579b
ISSN
1463-9076
1463-9084
Abstract
Chemical modification of graphene with adatoms is of importance for nanoelectronics applications. Based on first-principles density-functional theory calculations including van der Waals interactions, we present a comparative study of the diffusion characteristics of oxygen (O) and fluorine (F) atoms both on graphene and between the layers of bilayer graphene. We find that the calculated diffusion barrier for the O atom increases slightly from 0.81 eV on graphene to 0.85 eV within bilayer graphene, while that for the F atom largely decreases from 0.30 eV on graphene to 0.18 eV within bilayer graphene. Such contrasting behaviors of the O and F diffusions within bilayer graphene can be traced to their different bonding natures: i.e., the O adatom that shows strongly covalent C-O-C bonding on the bridge site of the C-C bond diffuses on one graphene layer with a slight interference of the other layer, while the F adatom that shows semi-ionic F-C bonding on top of a C atom easily diffuses by hopping between two graphene layers by accepting more electron charges from the two layers. The present findings have important implications for the understanding of the diffusion processes of F and O atoms on graphene and within bilayer graphene.
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