Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions

M. Katsuno; M. Nakabayashi; T. Fujimoto; N. Ohtani; H. Yashiro; H. Tsuge; T. Aigo; T. Hoshino; K. Tatsumi

Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions

M. Katsuno^*, M. Nakabayashi, T. Fujimoto, N. Ohtani, H. Yashiro, H. Tsuge, T. Aigo, T. Hoshino, K. Tatsumi

^*Corresponding author for this work

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

11 Citations (Scopus)

Abstract

The stacking fault formation in highly nitrogen-doped n⁺ 4H-SiC single crystal substrates during high temperature treatment has been investigated in terms of the surface preparation conditions of substrates. Substrates with a relatively large surface roughness showed a resistivity increase after annealing at 1100°C, which was confirmed to be caused by the formation and expansion of double Shockley-type basal plane stacking faults in the substrates. The occurrence of the stacking faults largely depended on the surface preparation conditions of the substrates, which indicates that the primary nucleation sites of stacking faults exist in the near-surface regions of substrates. In this regard, mechano-chemically polished (MCP) substrates with a minimum surface roughness (< 0.3 nm) exhibited no resistivity increase and very few stacking faults after annealing even when the nitrogen concentration of the substrates exceeded 1×10¹⁹ cm^-3.

Original language	English
Title of host publication	Silicon Carbide and Related Materials 2007
Editors	Akira Suzuki, Hajime Okumura, Kenji Fukuda, Shin-ichi Nishizawa, Tsunenobu Kimoto, Takashi Fuyuki
Publisher	Trans Tech Publications Ltd
Pages	341-344
Number of pages	4
ISBN (Print)	9780878493579
Publication status	Published - 2009 Jan 1
Externally published	Yes
Event	12th International Conference on Silicon Carbide and Related Materials, ICSCRM 2007 - Otsu, Japan Duration: 2007 Oct 14 → 2007 Oct 19

Publication series

Name	Materials Science Forum
Volume	600-603
ISSN (Print)	0255-5476
ISSN (Electronic)	1662-9752

Conference

Conference	12th International Conference on Silicon Carbide and Related Materials, ICSCRM 2007
Country/Territory	Japan
City	Otsu
Period	07/10/14 → 07/10/19

Keywords

Low resistivity
Nitrogen
SiC
Stacking faults
Surface roughness

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

Cite this

Katsuno, M., Nakabayashi, M., Fujimoto, T., Ohtani, N., Yashiro, H., Tsuge, H., Aigo, T., Hoshino, T., & Tatsumi, K. (2009). Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions. In A. Suzuki, H. Okumura, K. Fukuda, S. Nishizawa, T. Kimoto, & T. Fuyuki (Eds.), Silicon Carbide and Related Materials 2007 (pp. 341-344). (Materials Science Forum; Vol. 600-603). Trans Tech Publications Ltd.

Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions. / Katsuno, M.; Nakabayashi, M.; Fujimoto, T. et al.
Silicon Carbide and Related Materials 2007. ed. / Akira Suzuki; Hajime Okumura; Kenji Fukuda; Shin-ichi Nishizawa; Tsunenobu Kimoto; Takashi Fuyuki. Trans Tech Publications Ltd, 2009. p. 341-344 (Materials Science Forum; Vol. 600-603).

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

Katsuno, M, Nakabayashi, M, Fujimoto, T, Ohtani, N, Yashiro, H, Tsuge, H, Aigo, T, Hoshino, T & Tatsumi, K 2009, Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions. in A Suzuki, H Okumura, K Fukuda, S Nishizawa, T Kimoto & T Fuyuki (eds), Silicon Carbide and Related Materials 2007. Materials Science Forum, vol. 600-603, Trans Tech Publications Ltd, pp. 341-344, 12th International Conference on Silicon Carbide and Related Materials, ICSCRM 2007, Otsu, Japan, 07/10/14.

Katsuno M, Nakabayashi M, Fujimoto T, Ohtani N, Yashiro H, Tsuge H et al. Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions. In Suzuki A, Okumura H, Fukuda K, Nishizawa S, Kimoto T, Fuyuki T, editors, Silicon Carbide and Related Materials 2007. Trans Tech Publications Ltd. 2009. p. 341-344. (Materials Science Forum).

Katsuno, M. ; Nakabayashi, M. ; Fujimoto, T. et al. / Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions. Silicon Carbide and Related Materials 2007. editor / Akira Suzuki ; Hajime Okumura ; Kenji Fukuda ; Shin-ichi Nishizawa ; Tsunenobu Kimoto ; Takashi Fuyuki. Trans Tech Publications Ltd, 2009. pp. 341-344 (Materials Science Forum).

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abstract = "The stacking fault formation in highly nitrogen-doped n+ 4H-SiC single crystal substrates during high temperature treatment has been investigated in terms of the surface preparation conditions of substrates. Substrates with a relatively large surface roughness showed a resistivity increase after annealing at 1100°C, which was confirmed to be caused by the formation and expansion of double Shockley-type basal plane stacking faults in the substrates. The occurrence of the stacking faults largely depended on the surface preparation conditions of the substrates, which indicates that the primary nucleation sites of stacking faults exist in the near-surface regions of substrates. In this regard, mechano-chemically polished (MCP) substrates with a minimum surface roughness (< 0.3 nm) exhibited no resistivity increase and very few stacking faults after annealing even when the nitrogen concentration of the substrates exceeded 1×1019 cm-3.",

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author = "M. Katsuno and M. Nakabayashi and T. Fujimoto and N. Ohtani and H. Yashiro and H. Tsuge and T. Aigo and T. Hoshino and K. Tatsumi",

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AU - Katsuno, M.

AU - Nakabayashi, M.

AU - Fujimoto, T.

AU - Ohtani, N.

AU - Yashiro, H.

AU - Tsuge, H.

AU - Aigo, T.

AU - Hoshino, T.

AU - Tatsumi, K.

PY - 2009/1/1

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N2 - The stacking fault formation in highly nitrogen-doped n+ 4H-SiC single crystal substrates during high temperature treatment has been investigated in terms of the surface preparation conditions of substrates. Substrates with a relatively large surface roughness showed a resistivity increase after annealing at 1100°C, which was confirmed to be caused by the formation and expansion of double Shockley-type basal plane stacking faults in the substrates. The occurrence of the stacking faults largely depended on the surface preparation conditions of the substrates, which indicates that the primary nucleation sites of stacking faults exist in the near-surface regions of substrates. In this regard, mechano-chemically polished (MCP) substrates with a minimum surface roughness (< 0.3 nm) exhibited no resistivity increase and very few stacking faults after annealing even when the nitrogen concentration of the substrates exceeded 1×1019 cm-3.

AB - The stacking fault formation in highly nitrogen-doped n+ 4H-SiC single crystal substrates during high temperature treatment has been investigated in terms of the surface preparation conditions of substrates. Substrates with a relatively large surface roughness showed a resistivity increase after annealing at 1100°C, which was confirmed to be caused by the formation and expansion of double Shockley-type basal plane stacking faults in the substrates. The occurrence of the stacking faults largely depended on the surface preparation conditions of the substrates, which indicates that the primary nucleation sites of stacking faults exist in the near-surface regions of substrates. In this regard, mechano-chemically polished (MCP) substrates with a minimum surface roughness (< 0.3 nm) exhibited no resistivity increase and very few stacking faults after annealing even when the nitrogen concentration of the substrates exceeded 1×1019 cm-3.

KW - Low resistivity

KW - Nitrogen

KW - SiC

KW - Stacking faults

KW - Surface roughness

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A2 - Suzuki, Akira

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ER -

Stacking fault formation in highly nitrogen-doped 4H-SiC substrates with different surface preparation conditions

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Keywords

ASJC Scopus subject areas

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