A self-assembled double-island buffer structure for improving GaN-based materials grown on Si substrates

Hsueh Hsing Liu; Lung Chieh Cheng; Nien Tze Yeh; Geng Yen Lee; Chen Zi Liao; Jen Inn Chyi

doi:10.1149/2.0051412jss

A self-assembled double-island buffer structure for improving GaN-based materials grown on Si substrates

Hsueh Hsing Liu, Lung Chieh Cheng, Nien Tze Yeh, Geng Yen Lee, Chen Zi Liao, Jen Inn Chyi

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

摘要

This paper reports a new method to reduce threading dislocation density in GaN epilayers grown on (111) Si substrates by metalorganic chemical vapor deposition. This method utilizes an in- situ SiN_x mask to produce a self-assembled double-island structure, which effectively reduces threading dislocation density from 9.6 × 10⁹ cm^-2 to 2.6 × 10⁹ cm^-2 without using any lithographic and regrowth processes. InGaN light-emitting diodes fabricated on the double-island buffer layer exhibit nearly 20% improvement on the optical output power as well as less energy localization effect, compared to those without the double-island buffer layer. The mechanisms of double-island formation as well as dislocation reduction are proposed based on transmission electron microscopy investigations.

原文	???core.languages.en_GB???
頁（從 - 到）	R229-R233
期刊	ECS Journal of Solid State Science and Technology
卷	3
發行號	12
DOIs	https://doi.org/10.1149/2.0051412jss
出版狀態	已出版 - 2014

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10.1149/2.0051412jss

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title = "A self-assembled double-island buffer structure for improving GaN-based materials grown on Si substrates",

abstract = "This paper reports a new method to reduce threading dislocation density in GaN epilayers grown on (111) Si substrates by metalorganic chemical vapor deposition. This method utilizes an in- situ SiNx mask to produce a self-assembled double-island structure, which effectively reduces threading dislocation density from 9.6 × 109 cm-2 to 2.6 × 109 cm-2 without using any lithographic and regrowth processes. InGaN light-emitting diodes fabricated on the double-island buffer layer exhibit nearly 20% improvement on the optical output power as well as less energy localization effect, compared to those without the double-island buffer layer. The mechanisms of double-island formation as well as dislocation reduction are proposed based on transmission electron microscopy investigations.",

author = "Liu, {Hsueh Hsing} and Cheng, {Lung Chieh} and Yeh, {Nien Tze} and Lee, {Geng Yen} and Liao, {Chen Zi} and Chyi, {Jen Inn}",

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T1 - A self-assembled double-island buffer structure for improving GaN-based materials grown on Si substrates

AU - Liu, Hsueh Hsing

AU - Cheng, Lung Chieh

AU - Yeh, Nien Tze

AU - Lee, Geng Yen

AU - Liao, Chen Zi

AU - Chyi, Jen Inn

N1 - Publisher Copyright: © The Author(s) 2014. Published by ECS.

PY - 2014

Y1 - 2014

N2 - This paper reports a new method to reduce threading dislocation density in GaN epilayers grown on (111) Si substrates by metalorganic chemical vapor deposition. This method utilizes an in- situ SiNx mask to produce a self-assembled double-island structure, which effectively reduces threading dislocation density from 9.6 × 109 cm-2 to 2.6 × 109 cm-2 without using any lithographic and regrowth processes. InGaN light-emitting diodes fabricated on the double-island buffer layer exhibit nearly 20% improvement on the optical output power as well as less energy localization effect, compared to those without the double-island buffer layer. The mechanisms of double-island formation as well as dislocation reduction are proposed based on transmission electron microscopy investigations.

AB - This paper reports a new method to reduce threading dislocation density in GaN epilayers grown on (111) Si substrates by metalorganic chemical vapor deposition. This method utilizes an in- situ SiNx mask to produce a self-assembled double-island structure, which effectively reduces threading dislocation density from 9.6 × 109 cm-2 to 2.6 × 109 cm-2 without using any lithographic and regrowth processes. InGaN light-emitting diodes fabricated on the double-island buffer layer exhibit nearly 20% improvement on the optical output power as well as less energy localization effect, compared to those without the double-island buffer layer. The mechanisms of double-island formation as well as dislocation reduction are proposed based on transmission electron microscopy investigations.

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M3 - 期刊論文

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JF - ECS Journal of Solid State Science and Technology

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A self-assembled double-island buffer structure for improving GaN-based materials grown on Si substrates

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