Keyphrases
4H-pyrans
33%
Active Layer
33%
Alq3
33%
Asymmetric Electrode
33%
Channel Geometry
33%
Characteristic-based
33%
Charge-coupled Device Camera
33%
Cluster Beam Deposition
33%
Deposition Methods
33%
Device Characteristics
33%
Dicyanomethylene
33%
Dopant
33%
Doping Effect
100%
Efficient Energy Transfer
33%
Electrode Configuration
33%
Electrode Contact
100%
Electroluminescence
66%
Emission Change
33%
Emission Color
33%
Emission Efficiency
33%
Fluorescent Dye
33%
Heterojunction
33%
Highly Crystalline
33%
Highly Fluorescent
66%
Light Emission
33%
Light Emission Processes
33%
Long Channel
33%
Methyl
33%
Neutral Clusters
33%
Organic Light-emitting Field-effect Transistors (OLEFETs)
100%
Organic Light-emitting Transistors
100%
P-type
33%
Pentacene
100%
Top Contact
33%
Tris(8-hydroxyquinolinato)aluminum
100%
Two-layer
33%
Chemistry
4H-Pyran
33%
Aluminum
100%
Doping Material
33%
electrode
100%
Electroluminescence
66%
Energy Transfer
33%
Field Effect
100%
Fluorescent Dye
33%
Hydroxyquinoline
100%
Pentacene
100%
Tris
100%
Engineering
Active Layer
25%
Channel Geometry
25%
Charge-Coupled Device Camera
25%
Deposition Method
25%
Dopants
25%
Electrode Contact
100%
Emission Color
25%
Emitting Light
100%
Energy Engineering
25%
Field-Effect Transistor
75%
Heterojunctions
25%
Light Emission
50%
Luminaires
50%
Pentacene
100%
Material Science
Aluminum
100%
Doping (Additives)
33%
Electroluminescence
66%
Field Effect Transistor
100%
Heterojunction
33%
Transistor
100%