Si上的微金字塔垂直紫外GaN/AlGaN多量子阱led (111)

IF 1.5 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

Advances in Condensed Matter Physics Pub Date : 2021-04-28 DOI:10.1155/2021/9990673

Yuebo Liu, Honghui Liu, Hang Yang, Wanqing Yao, Fengge Wang, Yuan Ren, Junyu Shen, Minjie Zhang, Zhisheng Wu, Yang Liu, Baijun Zhang

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引用次数: 0

摘要

采用选择性面积生长的方法在Si(111)衬底上制备了微金字塔型垂直氮化镓紫外发光二极管(led)，以减少螺纹位错和极化效应。由于漏电流和底部位错与金字塔六面90°螺纹位错(TDs)的非辐射复合作用，金字塔底部和六面在低电流下不发光，金字塔顶部为高亮度区域。微金字塔UV LED在小电流注入下具有较高的光输出强度，单位面积串联电阻仅为传统垂直LED的四分之一，因此在驱动电路下，微金字塔UV LED具有较高的输出功率。单个微金字塔UV LED在−10 V时的反漏电流为2 nA。

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Micropyramid Vertical Ultraviolet GaN/AlGaN Multiple Quantum Wells LEDs on Si(111)

Micropyramid vertical GaN-based ultraviolet (UV) light-emitting diodes (LEDs) on Si(111) substrate have been fabricated by selective area growth to reduce threading dislocations and the polarization effects. There is no-light emission at the bottom and six planes of the pyramid at lower current due to the leakage current and nonradiative recombination of the dislocation at the bottom and the 90° threading dislocations (TDs) at six planes of the pyramid, and the top of the pyramid is the high-brightness region. The micropyramid UV LED has a high optical output intensity under a small current injection, and the series resistance of unit area is only a quarter of the conventional vertical LEDs, so the micropyramid UV LED would have a high output power under the drive circuit. The reverse leakage current of a single micropyramid UV LED is 2 nA at −10 V.

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来源期刊

Advances in Condensed Matter Physics PHYSICS, CONDENSED MATTER-

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Advances in Condensed Matter Physics publishes articles on the experimental and theoretical study of the physics of materials in solid, liquid, amorphous, and exotic states. Papers consider the quantum, classical, and statistical mechanics of materials; their structure, dynamics, and phase transitions; and their magnetic, electronic, thermal, and optical properties. Submission of original research, and focused review articles, is welcomed from researchers from across the entire condensed matter physics community.