Publication | Closed Access
62‐7: <i>Invited Paper:</i> Quantum Dot Color Conversion for OLED and microLED Displays
13
Citations
4
References
2021
Year
Optical MaterialsQuantum PhotonicsEngineeringOptoelectronic DevicesMicroled DisplaysElectronic DevicesDisplay TechnologyPhotodetectorsQuantum DotsAdvanced Display TechnologyMaterials SciencePhotonicsQuantum SciencePhotoluminescencePhysicsNanotechnologyOptoelectronic MaterialsPhotonic MaterialsWhite OledSolid-state LightingPatternable Qdcc FilmsColorimetryApplied PhysicsNanofabricationPhoton Conversion EfficiencyOptoelectronics
Quantum dot color conversion (QDCC) can enable OLED‐based displays with higher brightness and wider color gamut, and microLEDs with higher efficiencies and manufacturing scalability. Key to employing QDCC is the development of quantum dot (QD) materials with enhanced blue absorption, high quantum yield and narrow, tunable emission. Nanosys has developed new heavy metal‐free QDs that meet all these requirements and enable the fabrication of patternable QDCC films with high (>38%) photon conversion efficiency and gamut coverage.
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