oled devices and_applications
DESCRIPTION
Voltage applied across Cathode and Anode Typically 2V-10V Current flows from cathode to anode Electrons flow to emissive layer Electrons removed from conductive layer leaving holes Holes jump into emissive layer Electron and hole combine and light emittedTRANSCRIPT
OLED Devices and OLED Devices and ApplicationsApplications
By Sarkis ArabyanBy Sarkis Arabyan
2344982623449826
12/4/0812/4/08
OutlineOutline
MotivationMotivation How OLED worksHow OLED works Types of OLEDsTypes of OLEDs Advantages and ChallengesAdvantages and Challenges Current and Future ApplicationsCurrent and Future Applications
MotivationMotivation
41 in Samsung Prototype
How OLED WorksHow OLED Works CathodeCathode Emissive LayerEmissive Layer Conductive LayerConductive Layer AnodeAnode SubstrateSubstrate
How OLED WorksHow OLED Works1.1. Voltage applied across Voltage applied across
Cathode and AnodeCathode and Anode1.1. Typically 2V-10VTypically 2V-10V
2.2. Current flows from Current flows from cathode to anodecathode to anode
1.1. Electrons flow to emissive Electrons flow to emissive layerlayer
2.2. Electrons removed from Electrons removed from conductive layer leaving conductive layer leaving holesholes
3.3. Holes jump into emissive Holes jump into emissive layerlayer
3.3. Electron and hole Electron and hole combine and light emittedcombine and light emitted
How OLED WorksHow OLED Works
Different Colors Different Colors type of organic molecule type of organic molecule
in the emissive layer in the emissive layer 3 molecules used -RGB3 molecules used -RGB
Intensity/brightnessIntensity/brightness amount of currentamount of current