Engineering the work function of armchair graphene nanoribbons using strain and functional species: A first principles study

Chemical Compounds

• Nanoribbon 71%
• Work Function 71%
• Graphene 43%
• Strain 43%
• Decoration 20%
• Core Level 14%
• Chemical Passivation 12%
• Surface 9%
• Dipole 6%
• Electronic Property 5%
• Band Gap 4%
• Chemical Transformation 3%
• Density Functional Theory 3%
• Hydrogen 3%
• Dioxygen 3%
• Energy 2%
• Carbon Atom 2%

Engineering & Materials Science

• Graphene nanoribbon 100%
• Tensile strain 25%
• Core levels 21%
• Passivation 16%
• Nanoribbons 12%
• Fermi level 11%
• Electronic properties 10%
• Density functional theory 10%
• Energy gap 7%
• Structural properties 7%
• Atoms 7%
• Oxygen 5%
• Hydrogen 5%
• Carbon 5%

Physics & Astronomy

• graphene 50%
• engineering 45%
• passivity 12%
• shift 12%
• coverings 5%
• density functional theory 5%
• trends 5%
• dipoles 5%
• carbon 4%
• hydrogen 4%
• oxygen 4%
• electronics 3%
• atoms 3%
• energy 2%