发光二极管
材料科学
光学
量子效率
六方晶系
平方(代数)
光电子学
制作
二极管
梅萨
GSM演进的增强数据速率
电流密度
能量转换效率
电流(流体)
纵横比(航空)
电压降
电极
砷化镓
光强度
电子束光刻
电效率
功率(物理)
峰值电流
折射率
暗电流
作者
Zelong Huang,Yujie Gao,Mei Yang,Na Gao,Deyi Fu,Duanjun Cai,Shuping Li,Junyong Kang,Rong Zhang
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2025-09-18
卷期号:33 (20): 42747-42747
被引量:3
摘要
To address the challenge of low external quantum efficiency (EQE) in green micro-light-emitting diodes (micro-LEDs), we systematically investigated the effects of circular, square, and hexagonal mesa geometries. Through comprehensive fabrication and characterization, we demonstrate that the hexagonal mesa geometry significantly enhances device performance, achieving an optical output power density of 4.94 W/cm2 at 200 A/cm2, representing 1.57-fold and 1.28-fold enhancements compared to the square and circular configurations, respectively. Furthermore, it exhibits the lowest efficiency droop ratio among the geometries, and its peak EQE represents 1.18-fold and 1.13-fold enhancements compared to the circular and square configurations. These improvements are attributable to a minimized perimeter-to-emission area ratio that effectively suppresses Shockley-Read-Hall non-radiative recombination, and improved current spreading resulting from the reduced distance from the electrode edge to the mesa edge. These findings underscore the effectiveness of geometric optimization in significantly enhancing the optoelectronic performance of InGaN-based green micro-LEDs, providing a feasible strategy to achieve uniform current spreading and high quantum efficiency in micro-LEDs for integrated pixel architectures.
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