Fluorescence microscopy investigation of InGaN-based light-emitting diodes

被引：1

作者：

Presa, Silvino ^{[1
,2
]}

Maaskant, Pleun P. ^{[1
]}

Kappers, Menno J. ^{[3
]}

Corbett, Brian ^{[1
]}

机构：

[1] Natl Univ Ireland Univ Coll Cork, Tyndall Natl Inst, Dyke Parade, Cork, Ireland

[2] Natl Univ Ireland Univ Coll Cork, Sch Engn, Cork, Ireland

[3] Univ Cambridge, Dept Mat Sci & Met, Cambridge CB3 0FS, England

来源：

IET OPTOELECTRONICS | 2016年 / 10卷 / 02期

关键词：

fluorescence; optical microscopy; indium compounds; gallium compounds; III-V semiconductors; wide band gap semiconductors; light emitting diodes; photoluminescence; semiconductor quantum wells; ohmic contacts; fluorescence microscopy; light-emitting diodes; spatial dependent luminescent properties; quantum wells; selective excitation; transparent sapphire substrate; carrier escape; photovoltaic effect; open circuit conditions; short circuit conditions; electrical contacts; junction potential distribution; structured metal contacts; ohmic contact; collective emission; InGaN; EFFICIENCY DROOP;

D O I：

10.1049/iet-opt.2015.0052

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

The authors image the spatial dependent luminescent properties of InGaN quantum wells (QWs) in light-emitting diodes (LEDs) using fluorescence microscopy with selective excitation of the QWs through the transparent sapphire substrate. The authors measure strong carrier escape with the associated photovoltaic effect in the device under open and short circuit conditions. The addition of electrical contacts allows comparison of the images under both optical and electrical excitation. A lateral distribution of the junction potential is measured in LEDs with structured metal contacts. An ohmic contact creates an equipotential surface and influences the collective emission. The technique offers useful insights into the spatial properties of the recombination processes in InGaN materials and LED fabrication processes at low forward bias.

引用

页码：39 / 43

页数：5

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