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Hauptverfasser: Jubin, S., Rau, A., Barsukov, Y., Ethier, S., Kaganovich, I. D.
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2401.02547
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author Jubin, S.
Rau, A.
Barsukov, Y.
Ethier, S.
Kaganovich, I. D.
author_facet Jubin, S.
Rau, A.
Barsukov, Y.
Ethier, S.
Kaganovich, I. D.
contents Though weak surface interactions and adsorption can play an important role in plasma processing and materials science, they are not necessarily simple to model. A boron adatom adsorbed on a graphene sheet serves as a case study for how carefully one must select the correct technique from a toolbox of computational chemistry methods. Using a variety of molecular dynamics potentials and density functional theory functionals, we evaluate the adsorption energy, investigate barriers to adsorption and migration, calculate corresponding reaction rates, and show that a surprisingly high level of theory may be necessary to verify that the system is described correctly.
format Preprint
id arxiv_https___arxiv_org_abs_2401_02547
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Boron adatom adsorption on graphene: A case study in computational chemistry methods for surface interactions
Jubin, S.
Rau, A.
Barsukov, Y.
Ethier, S.
Kaganovich, I. D.
Computational Physics
Though weak surface interactions and adsorption can play an important role in plasma processing and materials science, they are not necessarily simple to model. A boron adatom adsorbed on a graphene sheet serves as a case study for how carefully one must select the correct technique from a toolbox of computational chemistry methods. Using a variety of molecular dynamics potentials and density functional theory functionals, we evaluate the adsorption energy, investigate barriers to adsorption and migration, calculate corresponding reaction rates, and show that a surprisingly high level of theory may be necessary to verify that the system is described correctly.
title Boron adatom adsorption on graphene: A case study in computational chemistry methods for surface interactions
topic Computational Physics
url https://arxiv.org/abs/2401.02547