Thermodynamical analysis of polytype stability during PVT growth of SiC using 2D nucleation theory

T. Shiramomo; B. Gao; F. Mercier; S. Nishizawa; S. Nakano; Y. Kangawa; K. Kakimoto

doi:10.1016/j.jcrysgro.2012.01.023

Thermodynamical analysis of polytype stability during PVT growth of SiC using 2D nucleation theory

T. Shiramomo, B. Gao, F. Mercier, S. Nishizawa, S. Nakano, Y. Kangawa, K. Kakimoto

研究成果: Article › 査読

21 被引用数 (Scopus)

抄録

We studied dependence of process parameters, such as temperature of a seed, pressure in a furnace and surface polarity of a substrate, on polytypes of SiC in a process of physical vapor transport. The analysis was based on a classical thermodynamic nucleation theory in conjunction with numerical results obtained from a global model. We investigated which polytype was more stable in the nucleation stage by a comparison of nucleation energies of each polytype. The results show that the formation of 4H-SiC was more stable than that of 6H-SiC when we used C-face SiC as a seed. Furthermore, the most stable polytype could change from 4H-SiC to 6H-SiC in a condition of higher supersaturation, with a condition of higher temperature of a seed and lower pressure in a furnace. Meanwhile, the formation of 6H-SiC was more stable than 4H-SiC when Si-face of a seed was used.

本文言語	English
ページ（範囲）	177-180
ページ数	4
ジャーナル	Journal of Crystal Growth
巻	352
号	1
DOI	https://doi.org/10.1016/j.jcrysgro.2012.01.023
出版ステータス	Published - 2012 8月 1
外部発表	はい

ASJC Scopus subject areas

凝縮系物理学
無機化学
材料化学

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10.1016/j.jcrysgro.2012.01.023

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title = "Thermodynamical analysis of polytype stability during PVT growth of SiC using 2D nucleation theory",

abstract = "We studied dependence of process parameters, such as temperature of a seed, pressure in a furnace and surface polarity of a substrate, on polytypes of SiC in a process of physical vapor transport. The analysis was based on a classical thermodynamic nucleation theory in conjunction with numerical results obtained from a global model. We investigated which polytype was more stable in the nucleation stage by a comparison of nucleation energies of each polytype. The results show that the formation of 4H-SiC was more stable than that of 6H-SiC when we used C-face SiC as a seed. Furthermore, the most stable polytype could change from 4H-SiC to 6H-SiC in a condition of higher supersaturation, with a condition of higher temperature of a seed and lower pressure in a furnace. Meanwhile, the formation of 6H-SiC was more stable than 4H-SiC when Si-face of a seed was used.",

keywords = "A1. Computer simulation, A1. Nucleation, A2. Growth from vapor, B2. Semiconducting silicon compounds",

author = "T. Shiramomo and B. Gao and F. Mercier and S. Nishizawa and S. Nakano and Y. Kangawa and K. Kakimoto",

year = "2012",

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T1 - Thermodynamical analysis of polytype stability during PVT growth of SiC using 2D nucleation theory

AU - Shiramomo, T.

AU - Gao, B.

AU - Mercier, F.

AU - Nishizawa, S.

AU - Nakano, S.

AU - Kangawa, Y.

AU - Kakimoto, K.

PY - 2012/8/1

Y1 - 2012/8/1

N2 - We studied dependence of process parameters, such as temperature of a seed, pressure in a furnace and surface polarity of a substrate, on polytypes of SiC in a process of physical vapor transport. The analysis was based on a classical thermodynamic nucleation theory in conjunction with numerical results obtained from a global model. We investigated which polytype was more stable in the nucleation stage by a comparison of nucleation energies of each polytype. The results show that the formation of 4H-SiC was more stable than that of 6H-SiC when we used C-face SiC as a seed. Furthermore, the most stable polytype could change from 4H-SiC to 6H-SiC in a condition of higher supersaturation, with a condition of higher temperature of a seed and lower pressure in a furnace. Meanwhile, the formation of 6H-SiC was more stable than 4H-SiC when Si-face of a seed was used.

AB - We studied dependence of process parameters, such as temperature of a seed, pressure in a furnace and surface polarity of a substrate, on polytypes of SiC in a process of physical vapor transport. The analysis was based on a classical thermodynamic nucleation theory in conjunction with numerical results obtained from a global model. We investigated which polytype was more stable in the nucleation stage by a comparison of nucleation energies of each polytype. The results show that the formation of 4H-SiC was more stable than that of 6H-SiC when we used C-face SiC as a seed. Furthermore, the most stable polytype could change from 4H-SiC to 6H-SiC in a condition of higher supersaturation, with a condition of higher temperature of a seed and lower pressure in a furnace. Meanwhile, the formation of 6H-SiC was more stable than 4H-SiC when Si-face of a seed was used.

KW - A1. Computer simulation

KW - A1. Nucleation

KW - A2. Growth from vapor

KW - B2. Semiconducting silicon compounds

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JO - Journal of Crystal Growth

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Thermodynamical analysis of polytype stability during PVT growth of SiC using 2D nucleation theory

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