Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers

Ray Ming Lin; Chung Hao Chiang; Mu Jen Lai; Yi Lun Chou; Yuan Chieh Lu; Shou Yi Kuo; Bor Ren Fang; Meng Chyi Wu

Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers

Ray Ming Lin, Chung Hao Chiang, Mu Jen Lai, Yi Lun Chou, Yuan Chieh Lu, Shou Yi Kuo, Bor Ren Fang, Meng Chyi Wu

Department of Electronic Engineering

Chang Gung University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We have investigated the effects of nonradiative recombination centers (NRCs) on the device performances of InGaN/GaN multi-quantum-well (MQW) light-emitting diodes (LEDs) incorporating low-temperature n-GaN (LT-GaN) underlying layers. Inserting an LT-GaN underlying layer prior to growing the MQWs is a successful means of separating the induced NRCs as a result of the presence of a growth interrupt interface between the n-GaN template and the InGaN QW. We found that inserting an LT-GaN underlying layer prior to growing the MQWs could improve the external quantum efficiency of as-grown conventional LEDs. In our best case, the external quantum efficiency of a blue LED incorporating a 70-nm-thick LT-GaN was 16% higher (at 20 mA) than that of the corresponding as-grown blue LED. Finally, it would also use in optical-fiber short-wavelength communication systems at particular condition.

Original language	English
Title of host publication	IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings
Publisher	International Institute of Informatics and Cybernetics, IIIC
Pages	54-55
Number of pages	2
ISBN (Print)	1934272701, 9781934272701
State	Published - 2009
Event	2nd International Multi-Conference on Engineering and Technological Innovation, IMETI 2009 - Orlando, FL, United States Duration: 10 07 2009 → 13 07 2009

Publication series

Name	IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings
Volume	3

Conference

Conference	2nd International Multi-Conference on Engineering and Technological Innovation, IMETI 2009
Country/Territory	United States
City	Orlando, FL
Period	10/07/09 → 13/07/09

Keywords

InGaN/GaN MQW
Light-emitting diodes
Nonradiative recombination center

Cite this

Lin, R. M., Chiang, C. H., Lai, M. J., Chou, Y. L., Lu, Y. C., Kuo, S. Y., Fang, B. R., & Wu, M. C. (2009). Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers. In IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings (pp. 54-55). (IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings; Vol. 3). International Institute of Informatics and Cybernetics, IIIC.

Lin, Ray Ming ; Chiang, Chung Hao ; Lai, Mu Jen et al. / Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers. IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings. International Institute of Informatics and Cybernetics, IIIC, 2009. pp. 54-55 (IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings).

@inproceedings{1bb5892ef70a414d913bcce28f57a952,

title = "Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers",

abstract = "We have investigated the effects of nonradiative recombination centers (NRCs) on the device performances of InGaN/GaN multi-quantum-well (MQW) light-emitting diodes (LEDs) incorporating low-temperature n-GaN (LT-GaN) underlying layers. Inserting an LT-GaN underlying layer prior to growing the MQWs is a successful means of separating the induced NRCs as a result of the presence of a growth interrupt interface between the n-GaN template and the InGaN QW. We found that inserting an LT-GaN underlying layer prior to growing the MQWs could improve the external quantum efficiency of as-grown conventional LEDs. In our best case, the external quantum efficiency of a blue LED incorporating a 70-nm-thick LT-GaN was 16% higher (at 20 mA) than that of the corresponding as-grown blue LED. Finally, it would also use in optical-fiber short-wavelength communication systems at particular condition.",

keywords = "InGaN/GaN MQW, Light-emitting diodes, Nonradiative recombination center",

author = "Lin, {Ray Ming} and Chiang, {Chung Hao} and Lai, {Mu Jen} and Chou, {Yi Lun} and Lu, {Yuan Chieh} and Kuo, {Shou Yi} and Fang, {Bor Ren} and Wu, {Meng Chyi}",

year = "2009",

language = "英语",

isbn = "1934272701",

series = "IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings",

publisher = "International Institute of Informatics and Cybernetics, IIIC",

pages = "54--55",

booktitle = "IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings",

note = "2nd International Multi-Conference on Engineering and Technological Innovation, IMETI 2009 ; Conference date: 10-07-2009 Through 13-07-2009",

}

Lin, RM, Chiang, CH, Lai, MJ, Chou, YL, Lu, YC, Kuo, SY, Fang, BR & Wu, MC 2009, Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers. in IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings. IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings, vol. 3, International Institute of Informatics and Cybernetics, IIIC, pp. 54-55, 2nd International Multi-Conference on Engineering and Technological Innovation, IMETI 2009, Orlando, FL, United States, 10/07/09.

Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers. / Lin, Ray Ming; Chiang, Chung Hao; Lai, Mu Jen et al.
IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings. International Institute of Informatics and Cybernetics, IIIC, 2009. p. 54-55 (IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings; Vol. 3).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers

AU - Lin, Ray Ming

AU - Chiang, Chung Hao

AU - Lai, Mu Jen

AU - Chou, Yi Lun

AU - Lu, Yuan Chieh

AU - Kuo, Shou Yi

AU - Fang, Bor Ren

AU - Wu, Meng Chyi

PY - 2009

Y1 - 2009

N2 - We have investigated the effects of nonradiative recombination centers (NRCs) on the device performances of InGaN/GaN multi-quantum-well (MQW) light-emitting diodes (LEDs) incorporating low-temperature n-GaN (LT-GaN) underlying layers. Inserting an LT-GaN underlying layer prior to growing the MQWs is a successful means of separating the induced NRCs as a result of the presence of a growth interrupt interface between the n-GaN template and the InGaN QW. We found that inserting an LT-GaN underlying layer prior to growing the MQWs could improve the external quantum efficiency of as-grown conventional LEDs. In our best case, the external quantum efficiency of a blue LED incorporating a 70-nm-thick LT-GaN was 16% higher (at 20 mA) than that of the corresponding as-grown blue LED. Finally, it would also use in optical-fiber short-wavelength communication systems at particular condition.

AB - We have investigated the effects of nonradiative recombination centers (NRCs) on the device performances of InGaN/GaN multi-quantum-well (MQW) light-emitting diodes (LEDs) incorporating low-temperature n-GaN (LT-GaN) underlying layers. Inserting an LT-GaN underlying layer prior to growing the MQWs is a successful means of separating the induced NRCs as a result of the presence of a growth interrupt interface between the n-GaN template and the InGaN QW. We found that inserting an LT-GaN underlying layer prior to growing the MQWs could improve the external quantum efficiency of as-grown conventional LEDs. In our best case, the external quantum efficiency of a blue LED incorporating a 70-nm-thick LT-GaN was 16% higher (at 20 mA) than that of the corresponding as-grown blue LED. Finally, it would also use in optical-fiber short-wavelength communication systems at particular condition.

KW - InGaN/GaN MQW

KW - Light-emitting diodes

KW - Nonradiative recombination center

UR - http://www.scopus.com/inward/record.url?scp=84898438689&partnerID=8YFLogxK

M3 - 会议稿件

AN - SCOPUS:84898438689

SN - 1934272701

SN - 9781934272701

T3 - IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings

SP - 54

EP - 55

BT - IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings

PB - International Institute of Informatics and Cybernetics, IIIC

T2 - 2nd International Multi-Conference on Engineering and Technological Innovation, IMETI 2009

Y2 - 10 July 2009 through 13 July 2009

ER -

Lin RM, Chiang CH, Lai MJ, Chou YL, Lu YC, Kuo SY et al. Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers. In IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings. International Institute of Informatics and Cybernetics, IIIC. 2009. p. 54-55. (IMETI 2009 - 2nd International Multi-Conference on Engineering and Technological Innovation, Proceedings).

Effects of luminescence efficiency in InGaN-GaN LEDs by inserting a LT-GaN underlying layer to separate nonradiative recombination centers

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