Keyphrases
Electrical Properties
100%
Optical Properties
100%
Aluminum Oxide
100%
Passivated
100%
Atomic Layer Deposited
100%
ZnO Nanocrystals
100%
Nanocrystal Thin Films
100%
Charge Transport
66%
Atomic Layer Deposition Al2O3
66%
Nanocrystal Films
66%
Atomic Layer Deposition
33%
Effective Strategies
33%
Ultrathin
33%
Nanocrystals
33%
Spectroscopic Analysis
33%
Surface Defects
33%
Number of Cycles
33%
Optimal Performance
33%
Field-effect Transistors
33%
Deposition Methods
33%
Microstructural Analysis
33%
Passivation
33%
Optimal number
33%
Surface-to-volume Ratio
33%
Doping Level
33%
Excess Carriers
33%
Infill
33%
Simple Strategy
33%
Free Carriers
33%
Electrical Analysis
33%
Doping Mechanism
33%
Ambient Stability
33%
Remote Doping
33%
Colloidal Semiconductor Nanocrystals
33%
Surface Trap States
33%
Engineering
Thin Films
100%
Atomic Layer Deposition
100%
Atomic Layer
100%
Charge Transport
66%
Passivation
33%
Volume Ratio
33%
Optimal Performance
33%
Field-Effect Transistor
33%
Doping Level
33%
Excess Carrier
33%
Based Optoelectronic Device
33%
Surface Defect
33%
Material Science
Thin Films
100%
ZnO
100%
Optical Property
100%
Al2O3
100%
Film
50%
Surface (Surface Science)
50%
Surface Defect
25%
Field Effect Transistor
25%