A Review on the Progress of AlGaN Tunnel Homojunction Deep-Ultraviolet Light-Emitting Diodes

Conventional deep-ultraviolet (UV) light-emitting diodes (LEDs) based on AlGaN crystals have extremely low light-emission efficiencies due to the absorption in p-type GaN anode contacts. UV-light-transparent anode structures are considered as one of the solutions to increase a light output power. To this end, the present study focuses on developing a transparent AlGaN homoepitaxial tunnel junction (TJ) as the anode of a deep-UV LED. Deep-UV LEDs composed of n(+)/p(+)-type AlGaN TJs were fabricated under the growth condition that reduced the carrier compensation in the n(+)-type AlGaN layers. The developed deep-UV LED achieved an operating voltage of 10.8 V under a direct current (DC) operation of 63 A cm(-2), which is one of the lowest values among devices composed of AlGaN tunnel homojunctions. In addition, magnesium zinc oxide (MgZnO)/Al reflective electrodes were fabricated to enhance the output power of the AlGaN homoepitaxial TJ LED. The output power was increased to 57.3 mW under a 63 A cm(-2) DC operation, which was 1.7 times higher than that achieved using the conventional Ti/Al electrodes. The combination of the AlGaN-based TJ and MgZnO/Al reflective contact allows further improvement of the light output power. This study confirms that the AlGaN TJ is a promising UV-transmittance structure that can achieve a high light-extraction efficiency.

Automated summary

A transparent AlGaN homoepitaxial tunnel junction (TJ) was developed as the anode of a deep-UV LED to increase its light output power. The AlGaN TJ LED achieved an operating voltage of 10.8 V and an output power of 57.3 mW, which were among the lowest and highest values, respectively, compared to devices using conventional electrodes. The combination of the AlGaN-based TJ and MgZnO/Al reflective contact showed promise in further improving the light output power.