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Wave Function Engineering in CdSe/PbS Core/Shell Quantum Dots
Brian M. Wieliczka
, Alexey L. Kaledin
, William E. Buhro
, Richard A. Loomis
Department of Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
Overview
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Keyphrases
Cadmium Selenide
100%
Core-shell Quantum Dots
100%
Wavefunction Engineering
100%
Wave Function
33%
Band Gap
33%
Band Edge
33%
Shell Thickness
33%
Order of Magnitude
16%
Delocalization
16%
Quantum Dots
16%
Absorption Spectra
16%
Model Support
16%
Photoluminescence
16%
Low Energy
16%
Hole Localization
16%
Absorption Bands
16%
Effective Mass
16%
Strong Absorption
16%
Zinc Blende
16%
Nano-heterostructure
16%
Conduction Band
16%
Valence Band
16%
Approximate Model
16%
Solar Concentration
16%
Rock-salt Structure
16%
Shell Growth
16%
Epitaxial
16%
Edge Feature
16%
Transition Energy
16%
Energy Shift
16%
Multiple Exciton Generation
16%
Concentration Generation
16%
Effective Mass Approximation
16%
Photoluminescence Bands
16%
Spectroscopic Behavior
16%
Engineering
Engineering
100%
Quantum Dot
100%
Core-Shell
100%
Band Edge
66%
Shell Thickness
66%
Band Gap
66%
Energy Function
33%
Valence Band
33%
Optoelectronic Device
33%
Crystal Structure
33%
Conduction Band
33%
Energy Transition
33%
Growth Additive
33%
Energy Shift
33%
Effective Mass Approximation
33%
Solar Concentration
33%
Physics
Quantum Dot
100%
Wave Function
100%
Photoluminescence
66%
Absorption Spectra
33%
Conduction Band
33%
Optoelectronic Device
33%
Crystal Structure
33%
Zinc Sulfide
33%
Material Science
Quantum Dot
100%
Photoluminescence
66%
Crystal Structure
33%
Absorption Spectra
33%