Description

Book Synopsis
One possible method of producing high-quality graphene is to grow it epitaxially; this thesis investigates the mechanisms involved in doing so. It describes how the initial stages of growth on the Ir(111) surface are modelled using both rate equations and kinetic Monte Carlo, based upon nudged elastic band (NEB) calculated reaction energy barriers. The results show that the decomposition mechanism involves production of C monomers by breaking the C-C bond.

In turn, the thesis explores the nucleation of carbon clusters on the surface from C monomers prior to graphene formation. Small arch-shaped clusters containing four to six C atoms, which may be key in graphene formation, are predicted to be long-lived on the surface.

In closing, the healing of single vacancy defects in the graphene/Ir(111) surface is investigated, and attempts to heal said defects using ethylene molecules is simulated with molecular dynamics and NEB calculated energy barriers.



Table of Contents

Introduction.- Theoretical Methods.- Producing a Source of Carbon: Hydrocarbon Decomposition.- Hydrocarbon Decomposition: Kinetic Monte Carlo Algorithm.- Thermal Decomposition in Graphene Growth: Kinetic Monte Carlo Results.- Beginnings of Growth: Carbon Cluster Nucleation.- Removing Defects: Healing Single Vacancy Defects.- Final Remarks.

Theoretical Modeling of Epitaxial Graphene Growth on the Ir(111) Surface

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    A Hardback by Holly Alexandra Tetlow

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      View other formats and editions of Theoretical Modeling of Epitaxial Graphene Growth on the Ir(111) Surface by Holly Alexandra Tetlow

      Publisher: Springer International Publishing AG
      Publication Date: 11/10/2017
      ISBN13: 9783319659718, 978-3319659718
      ISBN10: 3319659715
      Also in:
      Condensed matter physics Materials science Nanotechnology

      Description

      Book Synopsis
      One possible method of producing high-quality graphene is to grow it epitaxially; this thesis investigates the mechanisms involved in doing so. It describes how the initial stages of growth on the Ir(111) surface are modelled using both rate equations and kinetic Monte Carlo, based upon nudged elastic band (NEB) calculated reaction energy barriers. The results show that the decomposition mechanism involves production of C monomers by breaking the C-C bond.

      In turn, the thesis explores the nucleation of carbon clusters on the surface from C monomers prior to graphene formation. Small arch-shaped clusters containing four to six C atoms, which may be key in graphene formation, are predicted to be long-lived on the surface.

      In closing, the healing of single vacancy defects in the graphene/Ir(111) surface is investigated, and attempts to heal said defects using ethylene molecules is simulated with molecular dynamics and NEB calculated energy barriers.



      Table of Contents

      Introduction.- Theoretical Methods.- Producing a Source of Carbon: Hydrocarbon Decomposition.- Hydrocarbon Decomposition: Kinetic Monte Carlo Algorithm.- Thermal Decomposition in Graphene Growth: Kinetic Monte Carlo Results.- Beginnings of Growth: Carbon Cluster Nucleation.- Removing Defects: Healing Single Vacancy Defects.- Final Remarks.

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