Yellow-green InGaN-based light emitting diodes with emission peak wavelength red shifts under low injection current

机译：基于黄绿IngaN的发光二极管，具有发射峰值波长的红色进样电流

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We investigate the optical and electrical properties of the yellow-green InGaN-based light-emitting diode (LED) with a InGaN/GaN short-period superlattice and width-modulation quantum wells as the strain-accommodative layer. It is found that the peak wavelength shifts from 568.4 nm at 20 mA to 584.8 nm at 100 mA. The peak intensity of EL spectra doubles when the driving current increases from 20 to 60 mA and decreases to 1.7 times at a driving current of 100 mA. These results are attributed to the state-filling effect and the quantum confined Stark effect (QCSE) of the InGaN/GaN active region are effectively inhibited by inserting the strain-accommodative structure proposed in this work. The bandgap renormalization effect remarkably dominates the EL properties and the heat effect occurs at a driving current over 60 mA.

机译：我们研究了用InGaN / GaN短周期超晶格和宽度调制量子阱作为应变容纳层的光绿色IngaN的发光二极管（LED）的光学和电性能。发现峰值波长在100 mA的20mA至584.8nm下从568.4nm移位。当驱动电流从20到60 mA增加时，EL光谱的峰强度使得在100mA的驱动电流下降到1.7倍。这些结果归因于状态填充效果，并且通过插入本工作中提出的应变型结构，有效地抑制了InGaN / GaN有源区的量子狭窄的斑点效应（QCSE）。带隙重整化效果显着地占主导地位的EL性能，并且在60 mA的驱动电流下发生热效应。

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《WSEAS International Conference on Microelectronics, Nanoelectronics and Optoelectronics》|2010年||共4页
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MU-JEN LAI; LIANN-BE CHANG; RAY-MING LIN; MING-JER JENG;
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中图分类 TN4-53;
关键词
InGaN; Light-emitting diode; Red-shift; Carrier localization; Bandgap renormalization; Electroluminescence;

机译：IngaN;发光二极管;红转;载波定位;带隙重整;电致发光;

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专利

1. High-Efficiency InGaN-Based Yellow-Green Light-Emitting Diodes [J] . Mu-Jen Lai, Ming-Jer Jeng, Liann-Be Chang Japanese journal of applied physics . 2010,第2issue1期

机译：高效的基于InGaN的黄绿色发光二极管
2. A novel yellow-green emitting phosphor with hafnium silicon multiple rings structure for light-emitting diodes and field emission displays [J] . Wei Qi, Ding Jianyan, Chen Hang, Chemical engineering journal . 2020,第期

机译：具有铪硅的新型黄绿色发光磷光体，用于发光二极管的多环结构和场发射显示器
3. Size-independent peak external quantum efficiency (＞2%) of InGaN red micro-light-emitting diodes with an emission wavelength over 600 nm [J] . Panpan Li, Hongjian Li, Haojun Zhang, Applied Physics Letters . 2021,第8期

机译：InGaN红色微发光二极管的尺寸无关峰外量子效率（> 2％），具有超过600nm的发射波长
4. Yellow-green InGaN-based light emitting diodes with emission peak wavelength red shifts under low injection current [C] . MU-JEN LAI, LIANN-BE CHANG, RAY-MING LIN, New aspects of microelectronics, nanoelectronics, optoelectronics . 2010

机译：在低注入电流下发射峰值波长红移的黄绿色InGaN基发光二极管
5. Using the genetic algorithm to design gallium indium nitride/gallium nitride light-emitting diodes with reduced efficiency droop and reduced spectral instability with respect to injection current [D] . Mirhosseini, Roya 2010

机译：使用遗传算法设计氮化镓铟/氮化镓发光二极管，降低了效率下垂，并且降低了注入电流的光谱不稳定性
6. Effects of varying light quality from single-peak blue and red light-emitting diodes during nursery period on flowering photosynthesis growth and fruit yield of everbearing strawberry [O] . Hideo Yoshida, Daiki Mizuta, Naoya Fukuda, 2016

机译：苗期单峰蓝色和红色发光二极管的光质变化对多年生草莓开花光合作用生长和果实产量的影响
7. Effects of a Reduced Effective Active Region Volume on Wavelength-Dependent Efficiency Droop of InGaN-Based Light-Emitting Diodes [O] . Panpan Li, Yongbing Zhao, Xiaoyan Yi, 2018

机译：减小有效有效区域体积对incAn基发光二极管波长依赖性效率下降的影响

Yellow-green InGaN-based light emitting diodes with emission peak wavelength red shifts under low injection current

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