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http://dx.doi.org/10.4313/JKEM.2006.19.4.344

4H-SiC(0001) Epilayer Growth and Electrical Property of Schottky Diode  

Park, Chi-Kwon (동의대학교 전자세라믹스센터)
Lee, Won-Jae (동의대학교 전자세라믹스센터)
Nishino Shigehiro (동의대학교 전자세라믹스센터)
Shin, Byoung-Chul (동의대학교 전자세라믹스센터)
Publication Information
Journal of the Korean Institute of Electrical and Electronic Material Engineers / v.19, no.4, 2006 , pp. 344-349 More about this Journal
Abstract
A sublimation epitaxial method, referred to as the Closed Space Technique (CST) was adopted to produce thick SiC epitaxial layers for power device applications. We aimed to systematically investigate the dependence of SiC epilayer quality and growth rate during the sublimation growth using the CST method on various process parameters such as the growth temperature and working pressure. The etched surface of a SiC epitaxial layer grown with low growth rate $(30{\mu}m/h)$ exhibited low etch pit density (EPD) of ${\sim}2000/cm^2$ and a low micropipe density (MPD) of $2/cm^2$. The etched surface of a SiC epitaxial layer grown with high growth rate (above $100{\mu}m/h$) contained a high EPD of ${\sim}3500/cm^2$ and a high MPD of ${\sim}500/cm^2$, which indicates that high growth rate aids the formation of dislocations and micropipes in the epitaxial layer. We also investigated the Schottky barrier diode (SBD) characteristics including a carrier density and depletion layer for Ni/SiC structure and finally proposed a MESFET device fabricated by using selective epilayer process.
Keywords
SiC epilayer; CST(Closed space technique); Step-bunching; EPD(Etch pit density); MPD(Micropipe density);
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  • Reference
1 S. -S. Choi, 'Breakthrough m the Evolution of Semiconductor Sic', http://www.reseat.re.kr. 2005
2 J.-G. Kim, K.-R. Ku, D.-J. Kim, S.-P. Kim, W.-J. Lee, B.-C. Shin, G.-H. Lee, and I.-S. Kim, 'SiC crystal growth by sublimation method with modification of crucible and insulation felt design', Mater. Sci. Forum, Vol. 483-485, p. 47, 2005
3 A. S. Segal, A. N. Vorob'ev, S. Yu. Karpov, E. N. Mokhov, M. G. Ramm, M, S. Ramm, A. D. Roenkov, Yu. A. Vodakov, and Yu. N. Makarov, 'Growth of silicon carbide by sublimation sandwich method in the atmosphere of inert gas', J. Cryst, Growth, Vol. 208, p. 431, 2000
4 M. Syvajarvi, R. Yakimova, T. Iakimov, and E. Janzen, 'Characterization of anisotropic step-bunching on as-grown SiC surface', Mater. Sci. Forum, Vol. 338-342, p. 375, 2000
5 M. Tuominen, R. Yakimova, M. Syvajarvi, and E. Janzen, 'Domain misorientation in sublimation grown 4H SiC epitaxial layers', Mater. Sci. Eng., Vol. 1, p. 168, 1999
6 Gerold W. Neudeck, 'Modular series on solid state devices V ols II . The PN Junction Diode Second Edition', p. 127, 1998
7 A. Itoh, T. Kimoto, and H. Matsunarni, 'Low power-loss 4H-SiC schottky rectifiers with high blocking voltage', Institute of Physics Conference Series No 142 chapter 4, p. 689, 1996 Mater. Sci., Vol. 15, No.1, p. 10, 2001
8 Lilov, D. S. K, Tairov, Y. M., Tsvetkov, V. F., and Chemov, M. V., 'Structural and morphological peculiarities of the epitaxial layers and monocrystals of silicon carbide highly doped by nitrogen', Phys. Status Solidi, A.37, p. 143, 1986
9 T. Yoshida, Y. Nishio, S. K. Lilov, and S. Nishino 'Epitaxy of high quality SiC layers by CST', Mater. Sci. Forum, Vols. 264-268, p. 155, 1998
10 A. Kakanakova-Georgieva, M. F. MacMillan, S. Nishino, R. Yakimova, and E. Janzen, 'The effects of growth conditions on dislocation density in SiC epi-Iayers produced by the sublimation epitaxy technique', Mater. Sci. Forum, Vol. 264-268, p. 147, 1998
11 S. Nishino, T. Yoshida, and Y. Nishio, 'Epitaxial growth of high quality SiC by sublimation close space technique', Mat. Res. Soc. Syrnp. Proc., Vol. 483, p. 307 1998
12 J. N. Su and A. J. Steckl, 'Fabrication of high voltage SiC schottky barrier diodes by Ni metallization', Inst. Phys, Conf. Ser., No. 142, Chap. 4, p. 697, 1996
13 S. Yoneda, T. Furusho, H. Takagi, S. Ohta, and S. Nishino, 'Homepitaxial growth on 4H-SiC(03-38) face by sublimation close space techique', Mater. Sci. Forum, Vol. 483-485, p. 129, 2005   DOI