Keyphrases
Electrically Pumped
100%
Resonant Energy Transfer
100%
Transfer Based
100%
Hybrid Laser
100%
Colloidal Semiconductor Quantum Dots
100%
Quantum Dot Film
33%
Nanomaterials
22%
Order of Magnitude
22%
Coherent Light Source
22%
Core-shell
22%
Epitaxial Si
22%
Back Energy Transfer
22%
Hybrid Nanostructures
22%
Thermal Conductivity
22%
Photonics
11%
Surface Formation
11%
Student Research Experience
11%
Electrically Pumped Laser
11%
Impact Review
11%
Chemical Sensing
11%
Optical Amplification
11%
Auger Recombination
11%
Semiconductor Quantum Dot Laser
11%
Population Inversion
11%
Summer Programs
11%
Medical Diagnostics
11%
Exiton
11%
Low Defect Density
11%
Energy Relaxation
11%
Low Threshold Current Density
11%
Competition Process
11%
Nanolayers
11%
Solution-processable Materials
11%
SiGe
11%
Energy Donor
11%
Device Choice
11%
Multiple Applications
11%
Atomic Monolayer
11%
Review Criteria
11%
Rate Order
11%
Promising Solutions
11%
Density Interface
11%
Current-tunable
11%
Non-radial
11%
Undergraduate Student Research
11%
High School Students
11%
Dipole-dipole Interaction
11%
Charge Carrier Mobility
11%
Carrier Injection
11%
Quantum Confinement Effect
11%
Source-driven
11%
Tunable Emission Wavelength
11%
SiGe Nanostructures
11%
Interface Composition
11%
Epitaxial
11%
Surface Modification
11%
Carrier Mobility
11%
Heterostructure
11%
Academic Courses
11%
Carrier Recombination
11%
Synthetic Chemistry
11%
Optical Properties
11%
Carrier Injector
11%
AuGe
11%
Energy Transfer Process
11%
Structural Properties
11%
Graduate Student Research
11%
Energy Transfer Efficiency
11%
Device Design
11%
Conference Presentations
11%
Chemical Techniques
11%
Engineering
Semiconductor Quantum Dot
100%
Resonant Energy
100%
Nanomaterial
55%
Energy Engineering
44%
Thin Films
33%
Phase Composition
33%
Core-Shell
22%
Realization
22%
Light Source
22%
Carrier Mobility
22%
Emission Wavelength
11%
Related Defect
11%
Auger Recombination
11%
Population Inversion
11%
Optical Amplification
11%
Structural Property
11%
Defect Density
11%
Competing Process
11%
Energy Transfer Rate
11%
Nanolayers
11%
Threshold Current Density
11%
Poor Thermal Conductivity
11%
Quantum Confinement Effect
11%
Transfer Process
11%
Thermal Conductivity
11%
Photonics
11%
Research Project
11%
School Student
11%
Heterostructures
11%
Dipole Interaction
11%
Charge Carrier
11%
Monolayers
11%
Secondary Schools
11%
Material Science
Quantum Dot
100%
Thin Films
33%
Nanostructure
33%
Phase Composition
33%
Carrier Mobility
22%
Thermal Conductivity
22%
Nanostructured Material
22%
Surface Treatment
11%
Structural Property
11%
Defect Density
11%
Density
11%
Transfer Process
11%
Charge Carrier
11%
Dipole-Dipole Interaction
11%
Monolayers
11%
Heterojunction
11%
Optical Property
11%