Low-resistance graded AlxGa1-xN buffer layers for vertical conducting devices on n-SiC substrates

Atsushi Nishikawa; Kazuhide Kumakura; Tetsuya Akasaka; Toshiki Makimoto

doi:10.1016/j.jcrysgro.2006.10.102

Low-resistance graded Al_xGa_1-xN buffer layers for vertical conducting devices on n-SiC substrates

Atsushi Nishikawa^*, Kazuhide Kumakura, Tetsuya Akasaka, Toshiki Makimoto

^*Corresponding author for this work

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

3 Citations (Scopus)

Abstract

We investigated the Al composition and thickness dependence of the resistance of graded Al_xGa_1-xN buffer layers for vertical conducting devices on n-type 6H-SiC substrates. To measure current-voltage characteristics, a Ti/Au ohmic contact was formed on the backside of the SiC substrate. The Al composition of the buffer layer was varied from 2% to 10%. We found that the optimal buffer layer thickness for the lowest resistance decreases with increasing Al composition because the nucleation seeds on SiC substrate coalesce faster. Since the optimal layer thickness depends on the Al composition, the sheet Al concentration, which is calculated from the Al composition and the thickness, should be considered as a critical parameter for low buffer resistance of vertical conducting devices on n-SiC substrates.

Original language	English
Pages (from-to)	819-821
Number of pages	3
Journal	Journal of Crystal Growth
Volume	298
Issue number	SPEC. ISS
DOIs	https://doi.org/10.1016/j.jcrysgro.2006.10.102
Publication status	Published - 2007 Jan 1
Externally published	Yes

Keywords

A3. Metalorganic vapor phase epitaxy
B1. Nitrides
B3. Vertical conducting devices

ASJC Scopus subject areas

Condensed Matter Physics
Inorganic Chemistry
Materials Chemistry

Access to Document

10.1016/j.jcrysgro.2006.10.102

Cite this

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title = "Low-resistance graded AlxGa1-xN buffer layers for vertical conducting devices on n-SiC substrates",

abstract = "We investigated the Al composition and thickness dependence of the resistance of graded AlxGa1-xN buffer layers for vertical conducting devices on n-type 6H-SiC substrates. To measure current-voltage characteristics, a Ti/Au ohmic contact was formed on the backside of the SiC substrate. The Al composition of the buffer layer was varied from 2% to 10%. We found that the optimal buffer layer thickness for the lowest resistance decreases with increasing Al composition because the nucleation seeds on SiC substrate coalesce faster. Since the optimal layer thickness depends on the Al composition, the sheet Al concentration, which is calculated from the Al composition and the thickness, should be considered as a critical parameter for low buffer resistance of vertical conducting devices on n-SiC substrates.",

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author = "Atsushi Nishikawa and Kazuhide Kumakura and Tetsuya Akasaka and Toshiki Makimoto",

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AU - Nishikawa, Atsushi

AU - Kumakura, Kazuhide

AU - Akasaka, Tetsuya

AU - Makimoto, Toshiki

PY - 2007/1/1

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N2 - We investigated the Al composition and thickness dependence of the resistance of graded AlxGa1-xN buffer layers for vertical conducting devices on n-type 6H-SiC substrates. To measure current-voltage characteristics, a Ti/Au ohmic contact was formed on the backside of the SiC substrate. The Al composition of the buffer layer was varied from 2% to 10%. We found that the optimal buffer layer thickness for the lowest resistance decreases with increasing Al composition because the nucleation seeds on SiC substrate coalesce faster. Since the optimal layer thickness depends on the Al composition, the sheet Al concentration, which is calculated from the Al composition and the thickness, should be considered as a critical parameter for low buffer resistance of vertical conducting devices on n-SiC substrates.

AB - We investigated the Al composition and thickness dependence of the resistance of graded AlxGa1-xN buffer layers for vertical conducting devices on n-type 6H-SiC substrates. To measure current-voltage characteristics, a Ti/Au ohmic contact was formed on the backside of the SiC substrate. The Al composition of the buffer layer was varied from 2% to 10%. We found that the optimal buffer layer thickness for the lowest resistance decreases with increasing Al composition because the nucleation seeds on SiC substrate coalesce faster. Since the optimal layer thickness depends on the Al composition, the sheet Al concentration, which is calculated from the Al composition and the thickness, should be considered as a critical parameter for low buffer resistance of vertical conducting devices on n-SiC substrates.

KW - A3. Metalorganic vapor phase epitaxy

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KW - B3. Vertical conducting devices

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