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High-power InGaN single-quantum-well-structure blue and violet light-emitting diodes
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1995
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High-power BlueViolet Light-emitting DiodesEngineeringOptoelectronic DevicesElectronic DevicesViolet LedsLight-emitting DiodesCompound SemiconductorPhotonicsElectrical EngineeringPhotoluminescenceOptoelectronic MaterialsNew Lighting TechnologyAluminum Gallium NitrideWhite OledSolid-state LightingBlue LedsApplied PhysicsQuantum Photonic DeviceOptoelectronics
High-power blue and violet light-emitting diodes (LEDs) based on III–V nitrides were grown by metalorganic chemical vapor deposition on sapphire substrates. As an active layer, the InGaN single-quantum-well-structure was used. The violet LEDs produced 5.6 mW at 20 mA, with a sharp peak of light output at 405 nm, and exhibited an external quantum efficiency of 9.2%. The blue LEDs produced 4.8 mW at 20 mA and sharply peaked at 450 nm, corresponding to an external quantum efficiency of 8.7%. These values of the output power and the quantum efficiencies are the highest ever reported for violet and blue LEDs.