2017
DOI: 10.1039/c7sc02763j
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Atomistic simulations of graphite etching at realistic time scales

Abstract: We demonstrate that long time-scale events in atomistic ion-surface bombardment simulations can be essential and need to be accounted for.

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Cited by 10 publications
(13 citation statements)
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“…Despite the reduced H uptake, formation of weakly bound CH3 groups and erosion are initiated after fewer impacts (after ~300 impacts for both cases, rather than ~500 and ~600, respectively). This can attributed to a similar mechanism as was found in previous work [49]: a higher probability for C-C bond breaking due to prolonged exposure to thermal stress resulted in more potential binding sites [49] (this is also supported by the observed transition towards hydrocarbon release by thermally-induced C-C bond breaking, see Fig. S2 in the supplementary information).…”
Section: Long-time-scale Simulationsupporting
confidence: 82%
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“…Despite the reduced H uptake, formation of weakly bound CH3 groups and erosion are initiated after fewer impacts (after ~300 impacts for both cases, rather than ~500 and ~600, respectively). This can attributed to a similar mechanism as was found in previous work [49]: a higher probability for C-C bond breaking due to prolonged exposure to thermal stress resulted in more potential binding sites [49] (this is also supported by the observed transition towards hydrocarbon release by thermally-induced C-C bond breaking, see Fig. S2 in the supplementary information).…”
Section: Long-time-scale Simulationsupporting
confidence: 82%
“…2): thermally-induced hydrocarbon erosion (which was already discussed in Ref. [49]), surface diffusion, hydrogen desorption, and diffusion- where both H atoms hopped at least once before recombining.…”
Section: Long-time-scale Simulationmentioning
confidence: 98%
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