多层氮化镓NWs与传统c-平面led共形生长的比较研究

A. Hosalli, P. Frajtag, D. Van Den Broeck, T. Paskova, N. El-Masry, S. Bedair
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摘要

在过去的十年中,人们在提高基于iii -氮化物材料体系的发光二极管(led)效率的技术研究上付出了相当大的努力。这些努力可以分为两种主要方法:提高内部量子效率(IQE)和提高LED器件的光提取效率。在下面概述的工作中,我们展示了一种独特的LED结构,通过同时处理两种方法,与c平面LED相比,它具有显着增强的光输出强度。我们研究了NWs LED与c平面LED的光输出强度之比与电流密度的关系。在较低的电流密度下,较低的QCSE在NWs LED中占很大的比例。由于c面LED偏振场的载流子筛选消除了QCSE效应,因此随着电流密度的增加,这种效应会减小。该比率在较高的电流密度下达到饱和,其中高光输出的机制主要取决于光提取效率,而光提取效率仅取决于器件几何形状,与NWs LED中的电流密度无关。
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Comparative study of LEDs conformally overgrown on multi-facet GaN NWs vs. conventional c-plane LEDs
Over the last decade, considerable efforts have gone into researching techniques to improve the efficiency of light emitting diodes (LEDs) based on the III-nitride material system. These efforts can be classified into two main approaches : improving the internal quantum efficiency (IQE) and increasing the light extraction efficiency of the LED devices. In the work outlined below, we demonstrate a unique LED structure that has a significantly enhanced light output intensity compared to c-plane LEDs by tackling both approaches simultaneously. We investigated the ratio of light output intensity of the NWs LED vs the c-plane LED as a function of current density. At lower current densities, the lower QCSE in NWs LED is responsible for a large ratio. This reduces with increasing current density as carrier screening of the polarization field in the c-plane LED negates the QCSE effect. The ratio saturates at higher current densities where the mechanism for higher light output is dominated by the light extraction efficiency that depends only on the device geometry and is independent of the current density in the NWs LED.
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