INIS
adhesion
14%
air
14%
architecture
14%
charges
14%
comparative evaluations
14%
cost
14%
devices
100%
efficiency
14%
electrochemical cells
100%
electroluminescence
14%
electron beam injection
14%
equipment
14%
grids
100%
injection
14%
layers
42%
light emitting diodes
14%
manufacturing
28%
metals
100%
optimization
100%
performance
100%
reliability
14%
roughness
28%
solutions
14%
surfaces
28%
thickness
28%
thin films
14%
values
14%
Keyphrases
Adhesion
14%
Air-sensitive
14%
Area Lighting
14%
Cellular Device
100%
Charge Injection
14%
Cost Efficiency
14%
Electrical Performance
14%
Electroluminescent Devices
14%
Electron Injection
14%
Flexographic Printing
28%
Flexography
28%
Injection Layer
14%
Inkjet
28%
Inkjet Print
14%
Inkjet Printing
28%
Large-scale Fabrication
14%
Layer Thickness
28%
Light-emitting Diode (LED) Lamps
14%
Light-emitting Electrochemical Cells
100%
Lighting Source
14%
Manufacturing Process
14%
Metal Grid
100%
Organic Light-emitting Diodes
14%
Printed Conductor
14%
Printing Conditions
100%
Printing Equipment
14%
Printing Techniques
14%
Process Cost
14%
Process Reliability
14%
Reliability Constraint
14%
Rough Layer
28%
Source-driven
14%
Surface Roughness
28%
Upscale
14%
Engineering
Charge Injection
14%
Cost Efficiency
14%
Electrical Performance
14%
Electron Injection
14%
Emitting Light
100%
Flexographic Printing
28%
Inkjet Printing
28%
Layer Thickness
28%
Manufacturing Process
14%
Organic Light-Emitting Diode
14%
Target Value
14%
Thin Films
14%
Material Science
Conductor
100%
Electrochemical Cell
100%
Light-Emitting Diode
14%
Surface Roughness
28%
Thin Films
14%