The effect of the stacking fault on the diffusion of chemisorbed hydrogen atoms inside few-layered graphene

Authors
Chung, Dong HyenGuk, HyeinKim, DeajinHan, Sang SooPark, NoejungChoi, KihangChoi, Seung-Hoon
Issue Date
2014-05
Publisher
ROYAL SOC CHEMISTRY
Citation
RSC ADVANCES, v.4, no.18, pp.9223 - 9228
Abstract
We examined the diffusion of hydrogen atoms in mono-, bi- and tetralayer graphene with AB stacking and two bilayer graphene with stacking faults using density functional theory. The bi- and tetralayer graphene provide diffusion pathways with lower energy barriers inside the interlayer space. Inside the bi- and tetralayer graphene with AB stacking, the in-plane diffusion is more favorable than the inter-plane jumping. However, the stacking faults made by sliding layer planes lowers the energy barrier of the inter-plane jumping and the effective frequency of the inter-plane jump is larger than that of the in-plane diffusion inside the graphene layers with the stacking faults. This suggests that hydrogen atoms can diffuse over a long distance inside few-layered graphene with stacking faults jumping consecutively between adjacent layers.
Keywords
KINETIC-PROPERTIES; GRAPHITE; STATE; SPILLOVER; DYNAMICS; CHEMISTRY; SINGLE; DFT; KINETIC-PROPERTIES; GRAPHITE; STATE; SPILLOVER; DYNAMICS; CHEMISTRY; SINGLE; DFT; Stacking fault; Diffusion; Hydrogen; Graphene
ISSN
2046-2069
URI
https://pubs.kist.re.kr/handle/201004/126832
DOI
10.1039/c3ra46626d
Appears in Collections:
KIST Article > 2014
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