Growth and characterization of semi-insulating carbon-doped/undoped GaN multiple-layer buffer

Dong Seok Kim; Chul Ho Won; Hee Sung Kang; Young Jo Kim; Yong Tae Kim; In Man Kang; Jung Hee Lee

doi:10.1088/0268-1242/30/3/035010

Growth and characterization of semi-insulating carbon-doped/undoped GaN multiple-layer buffer

Dong Seok Kim, Chul Ho Won, Hee Sung Kang, Young Jo Kim, Yong Tae Kim, In Man Kang, Jung Hee Lee

School of Electronics Engineering

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

We have proposed a new semi-insulating GaN buffer layer, which consists of multiple carbon-doped and undoped GaN layer. The buffer layer showed sufficiently good semi-insulating characteristics, attributed to the depletion effect between the carbon-doped GaN and the undoped GaN layers, even though the thickness of the carbon-doped GaN layer in the periodic structure was designed to be very thin to minimize the total carbon incorporation into the buffer layer. The AlGaN/AlN/GaN heterostructure grown on the proposed buffer exhibited much better electrical and structural properties than that grown on the conventional thick carbon-doped semi-insulating GaN buffer layer, confirmed by Hall measurement, x-ray diffraction, and secondary ion mass spectrometry. The fabricated device also showed excellent buffer breakdown characteristics.

Original language	English
Article number	035010
Journal	Semiconductor Science and Technology
Volume	30
Issue number	3
DOIs	https://doi.org/10.1088/0268-1242/30/3/035010
State	Published - 1 Mar 2015

Keywords

breakdown
buffer
carbon
GaN
semi-insulating

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10.1088/0268-1242/30/3/035010

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title = "Growth and characterization of semi-insulating carbon-doped/undoped GaN multiple-layer buffer",

abstract = "We have proposed a new semi-insulating GaN buffer layer, which consists of multiple carbon-doped and undoped GaN layer. The buffer layer showed sufficiently good semi-insulating characteristics, attributed to the depletion effect between the carbon-doped GaN and the undoped GaN layers, even though the thickness of the carbon-doped GaN layer in the periodic structure was designed to be very thin to minimize the total carbon incorporation into the buffer layer. The AlGaN/AlN/GaN heterostructure grown on the proposed buffer exhibited much better electrical and structural properties than that grown on the conventional thick carbon-doped semi-insulating GaN buffer layer, confirmed by Hall measurement, x-ray diffraction, and secondary ion mass spectrometry. The fabricated device also showed excellent buffer breakdown characteristics.",

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AU - Kim, Dong Seok

AU - Won, Chul Ho

AU - Kang, Hee Sung

AU - Kim, Young Jo

AU - Kim, Yong Tae

AU - Kang, In Man

AU - Lee, Jung Hee

PY - 2015/3/1

Y1 - 2015/3/1

N2 - We have proposed a new semi-insulating GaN buffer layer, which consists of multiple carbon-doped and undoped GaN layer. The buffer layer showed sufficiently good semi-insulating characteristics, attributed to the depletion effect between the carbon-doped GaN and the undoped GaN layers, even though the thickness of the carbon-doped GaN layer in the periodic structure was designed to be very thin to minimize the total carbon incorporation into the buffer layer. The AlGaN/AlN/GaN heterostructure grown on the proposed buffer exhibited much better electrical and structural properties than that grown on the conventional thick carbon-doped semi-insulating GaN buffer layer, confirmed by Hall measurement, x-ray diffraction, and secondary ion mass spectrometry. The fabricated device also showed excellent buffer breakdown characteristics.

AB - We have proposed a new semi-insulating GaN buffer layer, which consists of multiple carbon-doped and undoped GaN layer. The buffer layer showed sufficiently good semi-insulating characteristics, attributed to the depletion effect between the carbon-doped GaN and the undoped GaN layers, even though the thickness of the carbon-doped GaN layer in the periodic structure was designed to be very thin to minimize the total carbon incorporation into the buffer layer. The AlGaN/AlN/GaN heterostructure grown on the proposed buffer exhibited much better electrical and structural properties than that grown on the conventional thick carbon-doped semi-insulating GaN buffer layer, confirmed by Hall measurement, x-ray diffraction, and secondary ion mass spectrometry. The fabricated device also showed excellent buffer breakdown characteristics.

KW - breakdown

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KW - carbon

KW - GaN

KW - semi-insulating

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Growth and characterization of semi-insulating carbon-doped/undoped GaN multiple-layer buffer

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Keywords

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