材料科学
光电子学
同质结
发光二极管
微晶
电极
透射率
阳极
紫外线
光发射
光学
化学
冶金
异质结
物理
物理化学
作者
Taichi Matsubara,Kengo Nagata,Maki Kushimoto,Shigekazu Tomai,Satoshi Katsumata,Yoshio Honda,Hiroshi Amano
标识
DOI:10.35848/1882-0786/ac5acf
摘要
Abstract In this study, we enhanced the emission power of AlGaN-based tunnel junction deep-ultraviolet LEDs (TJ LEDs) by using a MgZnO and aluminum stacked structure as UV reflective electrodes on the anode side. The emission wavelength of the fabricated TJ LED was 284 nm, and the emission power was 57.3 mW at 63 A cm −2 . The polycrystalline MgZnO enabled both conductivity and UV transmittance to be achieved, approximately doubling with a reflectance of the fabricated TJ LED at 284 nm compared to conventional TJ LED with Ti/Al. These factors contributed to the increased emission power of TJ LEDs.
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