2018
DOI: 10.1021/acs.accounts.7b00592
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Atomistic Simulations of Graphene Growth: From Kinetics to Mechanism

Abstract: Epitaxial growth is a promising strategy to produce high-quality graphene samples. At the same time, this method has great flexibility for industrial scale-up. To optimize growth protocols, it is essential to understand the underlying growth mechanisms. This is, however, very challenging, as the growth process is complicated and involves many elementary steps. Experimentally, atomic-scale in situ characterization methods are generally not feasible at the high temperature of graphene growth. Therefore, kinetics… Show more

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Cited by 30 publications
(31 citation statements)
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“…The maximal concentration of CH radicals remains nearly the same while the maximal concentration of C 2 radicals increases (Figure c,d). Considering the higher production rate of graphene in this case, it is assumed that C 2 radicals are more relevant to forming GS, consistent with previous work …”
supporting
confidence: 84%
“…The maximal concentration of CH radicals remains nearly the same while the maximal concentration of C 2 radicals increases (Figure c,d). Considering the higher production rate of graphene in this case, it is assumed that C 2 radicals are more relevant to forming GS, consistent with previous work …”
supporting
confidence: 84%
“…The "coastline" graphene morphology during sublimation 164 and the step-flow growth of epitaxial graphene have also been reported 165 . Based on KMC simulations for graphene growth on Cu (111) with and without hydrogen, the growth protocol was designed for bilayer growth and N-doped graphene growth 166 .…”
Section: Mesoscale Simulationsmentioning
confidence: 99%
“…Generally, copper has a much lower activity than that of main-group transition metals such as nickel [5,6], but it is higher than silver and gold. Understanding the interaction between different copper surfaces and hydrocarbons will not only enrich the knowledge of surface science but also help to understand the mechanism of graphene growth [8,9].…”
Section: Introductionmentioning
confidence: 99%