Efficiency droop suppression in GaN-based light-emitting diodes by chirped multiple quantum well structure at high current injection 被引量：1

Efficiency droop suppression in GaN-based light-emitting diodes by chirped multiple quantum well structure at high current injection

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摘要 Gallium nitride （GaN） based light-emitting diodes （LEDs） with chirped multiple quantum well （MQW） structures have been investigated experimentally and numerically in this paper. Compared to conventional LEDs with uniform quantum wells （QWs）, LEDs with chirped MQW structures have better internal quantum efficiency （IQE） and carrier injection efficiency. The droop ratios of LEDs with chirped MQW structures show a remarkable improvement at 600 mA/mm2, reduced down from 28.6% （conventional uniform LEDs） to 23.7% （chirped MQWs-a） and 18.6% （chirped MQWs-b）, respectively. Meanwhile, the peak IQE increases from 76.9% （uniform LEDs） to 83.7% （chirped MQWs-a） and 88.6% （chirped MQWs-b）. The reservoir effect of chirped MQW structures is the significant reason as it could increase hole injection efficiency and radiative recombination. The leakage current and Auger recombination of chirped MQW structures can also be suppressed. Furthermore, the chirped MQWs-b structure with lower potential barriers can enhance the reservoir effect and obtain further improvement of the carrier injection efficiency and radiative recombination, as well as further suppressing efficiency droop. Gallium nitride （GaN） based light-emitting diodes （LEDs） with chirped multiple quantum well （MQW） structures have been investigated experimentally and numerically in this paper. Compared to conventional LEDs with uniform quantum wells （QWs）, LEDs with chirped MQW structures have better internal quantum efficiency （IQE） and carrier injection efficiency. The droop ratios of LEDs with chirped MQW structures show a remarkable improvement at 600 mA/mm2, reduced down from 28.6% （conventional uniform LEDs） to 23.7% （chirped MQWs-a） and 18.6% （chirped MQWs-b）, respectively. Meanwhile, the peak IQE increases from 76.9% （uniform LEDs） to 83.7% （chirped MQWs-a） and 88.6% （chirped MQWs-b）. The reservoir effect of chirped MQW structures is the significant reason as it could increase hole injection efficiency and radiative recombination. The leakage current and Auger recombination of chirped MQW structures can also be suppressed. Furthermore, the chirped MQWs-b structure with lower potential barriers can enhance the reservoir effect and obtain further improvement of the carrier injection efficiency and radiative recombination, as well as further suppressing efficiency droop.

作者赵宇坤李虞锋黄亚平王宏苏喜林丁文云峰

机构地区 Key Laboratory of Physical Electronics and Devices of Ministry of Education and Shaanxi Provincial Key Laboratory of Photonics & Information Technology Solid-State Lighting Engineering Research Center Shaanxi Supernova Lighting Technology Co. Ltd

出处《Chinese Physics B》 SCIE EI CAS CSCD 2015年第5期484-488,共5页 中国物理B（英文版）

基金 supported by the National High Technology Research and Development Program of China(Grant No.2014AA032608) the Key Laboratory for Mechanical Behavior of Material of Xi’an Jiaotong University,China(Grant No.20121201) the Fundamental Research Funds for the Central Universities,China

关键词 efficiency droop chirped multiple quantum well structure hole injection light-emitting diode efficiency droop, chirped multiple quantum well structure, hole injection, light-emitting diode

分类号 TN312.8 [电子电信—物理电子学]

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Efficiency droop suppression in GaN-based light-emitting diodes by chirped multiple quantum well structure at high current injection 被引量：1

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