Tunnel-injected sub 290 nm ultra-violet light emitting diodes with 2.8% external quantum efficiency

We report on the high efficiency tunnel-injected ultraviolet light emitting diodes (UV LEDs) emitting at 287 nm. Deep UV LED performance has been limited by the severe internal light absorption in the p-type contact layers and low electrical injection efficiency due to poor p-type conduction. In thi...

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Bibliographic Details
Published in:Applied physics letters 2018-02, Vol.112 (7)
Main Authors: Zhang, Yuewei, Jamal-Eddine, Zane, Akyol, Fatih, Bajaj, Sanyam, Johnson, Jared M., Calderon, Gabriel, Allerman, Andrew A., Moseley, Michael W., Armstrong, Andrew M., Hwang, Jinwoo, Rajan, Siddharth
Format: Article
Language:English
Subjects:
Applied physics
Efficiency
Electric contacts
Electromagnetic absorption
Emitters
Light emission
Light emitting diodes
Low resistance
Organic light emitting diodes
Quantum efficiency
Tunnel junctions
Ultraviolet radiation
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Summary:We report on the high efficiency tunnel-injected ultraviolet light emitting diodes (UV LEDs) emitting at 287 nm. Deep UV LED performance has been limited by the severe internal light absorption in the p-type contact layers and low electrical injection efficiency due to poor p-type conduction. In this work, a polarization engineered Al0.65Ga0.35N/In0.2Ga0.8N tunnel junction layer is adopted for non-equilibrium hole injection to replace the conventionally used direct p-type contact. A reverse-graded AlGaN contact layer is further introduced to realize a low resistance contact to the top n-AlGaN layer. This led to the demonstration of a low tunnel junction resistance of 1.9 × 10−3 Ω cm2 obtained at 1 kA/cm2. Light emission at 287 nm with an on-wafer peak external quantum efficiency of 2.8% and a wall-plug efficiency of 1.1% was achieved. The measured power density at 1 kA/cm2 was 54.4 W/cm2, confirming the efficient hole injection through interband tunneling. With the benefits of the minimized internal absorption and efficient hole injection, a tunnel-injected UV LED structure could enable future high efficiency UV emitters.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.5017045