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Insights into excitons confined to nanoscale systems: Electron-hole interaction, binding energy, and photodissociation
Gregory D. Scholes
Research output
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Contribution to journal
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Article
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peer-review
115
Scopus citations
Overview
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Dive into the research topics of 'Insights into excitons confined to nanoscale systems: Electron-hole interaction, binding energy, and photodissociation'. Together they form a unique fingerprint.
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Engineering & Materials Science
Photodissociation
100%
Excitons
86%
Binding energy
78%
Electrons
49%
Conjugated polymers
22%
Excited states
20%
Charge transfer
15%
Spectroscopy
13%
Carbon nanotubes
13%
Chemical Compounds
Hole (Electron)
59%
Photodissociation
56%
Exciton
49%
Binding Energy
43%
Bound Exciton
27%
Conjugated Polymer
16%
Quantum Dot
14%
Valence
14%
Excited State
13%
Carbon Nanotube
11%
Charge Transfer
11%
Spectroscopy
10%
Electron Particle
8%
Physics & Astronomy
photodissociation
52%
binding energy
42%
excitons
38%
interactions
19%
charge transfer
10%
carbon nanotubes
10%
analogs
9%
quantum dots
9%
valence
9%
polymers
7%
spectroscopy
6%
excitation
6%
electrons
5%