波长
光学
材料科学
光电子学
电流(流体)
发光二极管
可见光谱
制作
斯塔克效应
电流密度
蓝移
量子点
像素
量子效率
量子光学
红移
LED灯
量子
量子限制斯塔克效应
作者
Zhiyuan Liu,Zuojian Pan,Haodong Zhang,Zhizhong Chen,Qi Wang,Guoyi Zhang,Bo Shen,Haicheng Cao,Kexin Ren,Tingang Liu,Zixian Jiang,Yi Lu,Xiaohang Li
出处
期刊:Optics Letters
[Optica Publishing Group]
日期:2026-02-17
卷期号:51 (6): 1436-1436
被引量:1
摘要
InGaN-based long-wavelength micro-LEDs often exhibit a significant blue-shift in emission wavelength with increasing current density due to the pronounced quantum-confined Stark effect (QCSE), which limits their applicability in display technologies and visible light communication. In this study, we report the fabrication of InGaN amber micro-LEDs with a 40 μm pixel size, employing a thick InGaN film (bulk InGaN) as the active region instead of the conventional multiple quantum well (MQW) structure. The devices exhibit a minimal wavelength shift from 618 to 608 nm as the injection current increases from 5 to 5000 μA. This 10 nm shift over three orders of magnitude in current demonstrates excellent wavelength and color stability. These results highlight a promising approach to overcoming the challenge of spectral instability in long-wavelength micro-LEDs, enhancing their viability for high-performance display and communication applications.
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