Defects in Two-Dimensional Materials /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Addou, Rafik, Colombo, Luigi
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, 2022.
Colección:Materials today.
Temas:
Two-dimensional materials > Defects.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Defects in Two-Dimensional Materials
  • Copyright
  • Contents
  • List of contributors
  • About the editors
  • Preface
  • 1 Introduction
  • References
  • 2 Physics and theory of defects in 2D materials: the role of reduced dimensionality
  • 2.1 Introduction
  • 2.2 Classification of defects
  • 2.3 Insights into the atomic structures of defects from scanning tunneling and transmission electron microscopy experiments
  • 2.4 Production of defects in two-dimensional materials under electron and ion irradiation
  • 2.5 Examples of defects in two-dimensional materials
  • 2.5.1 Point defects
  • 2.5.2 Line defects
  • 2.6 Theoretical aspects of the physics of defects in bulk crystalline solids and two-dimensional materials
  • 2.6.1 Defect formation energy
  • 2.6.2 Gibbs free energy of defect formation
  • 2.6.3 Equilibrium concentration of defects
  • 2.7 Calculations of defect formation energies and electronic structure using the supercell approach
  • 2.7.1 Assessment of defect formation energies
  • 2.7.2 First-principles approaches for calculating defect states
  • 2.8 Electronic structure of 2D materials with defects
  • 2.8.1 Defect-induced modifications of electronic states
  • 2.8.2 Deep vs. shallow electronic states in 2D materials
  • 2.8.3 Defect-bound excitons
  • 2.9 Point defects and vibrational properties of 2D materials from atomistic simulations
  • 2.9.1 Signatures of defects in Raman spectra
  • 2.9.2 Phonon contributions to defect-related photo-luminescence spectra in 2D materials
  • 2.10 Conclusions and outlook
  • Acknowledgment
  • References
  • 3 Defects in two-dimensional elemental materials beyond graphene
  • 3.1 Introduction
  • 3.2 Borophene
  • 3.2.1 Synthesis and atomic structure
  • 3.2.2 Defects in borophene
  • 3.3 Silicene
  • 3.3.1 Synthesis and atomic structure
  • 3.3.2 Defects in silicene
  • 3.4 Germanene
  • 3.4.1 Synthesis and atomic structure
  • 3.4.2 Defects in germanene
  • 3.5 Stanene
  • 3.5.1 Synthesis and atomic structure
  • 3.5.2 Defects in stanene
  • 3.6 Plumbene
  • 3.6.1 Synthesis and atomic structure
  • 3.6.2 Defects in plumbene
  • 3.7 Phosphorene
  • 3.7.1 Synthesis and atomic structure
  • 3.7.2 Defects in phosphorene
  • 3.8 Arsenene (h-As) and Antimonene (h-Sb)
  • 3.8.1 Synthesis and atomic structure
  • 3.8.2 Defects in arsenene and antimonene
  • 3.9 Bismuthene
  • 3.9.1 Synthesis and atomic structure
  • 3.9.2 Defects in bismuthene
  • 3.10 Selenene and tellurene
  • 3.11 Gallenene
  • 3.12 Hafnene
  • 3.13 Conclusions and outlook
  • References
  • 4 Defects in transition metal dichalcogenides
  • 4.1 Introduction
  • 4.2 Point defects
  • 4.2.1 Defect inventory
  • 4.2.2 Defect classification
  • 4.2.3 The nature of vacancies
  • 4.2.4 Complex defects created by annealing of WSe2
  • 4.3 Impurities
  • 4.3.1 Contaminants
  • 4.3.2 Intercalants
  • 4.3.3 Dopants
  • 4.3.4 Alloys
  • 4.4 Line defects
  • 4.5 Control of defects and their applications

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