Insights into excitons confined to nanoscale systems: Electron-hole interaction, binding energy, and photodissociation

Engineering & Materials Science

• Binding energy 78%
• Carbon nanotubes 13%
• Charge transfer 15%
• Conjugated polymers 22%
• Electrons 49%
• Excited states 20%
• Excitons 86%
• Photodissociation 100%
• Spectroscopy 13%

Chemical Compounds

• Binding Energy 43%
• Bound Exciton 27%
• Carbon Nanotube 11%
• Charge Transfer 11%
• Conjugated Polymer 16%
• Electron Particle 8%
• Excited State 13%
• Exciton 49%
• Hole (Electron) 59%
• Photodissociation 56%
• Quantum Dot 14%
• Spectroscopy 10%
• Valence 14%

Physics & Astronomy

• analogs 9%
• binding energy 42%
• carbon nanotubes 10%
• charge transfer 10%
• electrons 5%
• excitation 6%
• excitons 38%
• interactions 19%
• photodissociation 52%
• polymers 7%
• quantum dots 9%
• spectroscopy 6%
• valence 9%