[1] G. L. Harris, Properties of Silicon Carbide, London, 1995.

[2] Ivanov P A and Chelnokov V E, Semiconductor Science & Technology 7, 863 (1999).

[3] Lin X, Lin S S, Xu Y, Hakro A A, Hasan T, Zhang B L, Yu B, Luo J K, Li E P and Chen H S, Journal of Materials Chemistry C 1, 2131 (2013).

[4] Wang D Y, Song Y C and Li Y Q, Transactions of Nonferrous Metals Society of China 22, 1133 (2012).

[5] Zhou L J, Zhang Y F and Wu L M, Nano Letters 13, 5431 (2013).

[6] Ding Y and Wang Y, Journal of Physical Chemistry C 118, 4509 (2014).

[7] Shi Z M, Zhang Z H, Kutana A and Yakobson B I, ACS Nano 9, 9802 (2015).

[8] Azri M A, Elzain M, Khalid B and Chérif S M, European Physical Journal B 86, 1 (2013).

[9] Lin L, Li X H, Xu Y H, Zhang Z H, Tao H L, He M, Zhang Z Y and Cao J L, Journal of Superconductivity & Novel Magnetism 31, 225 (2018).

[10] Song B, Bao H Q, Li H, Lei M, Peng T H, Jian J K, Liu J, Wang W J, Wang W J and Chen X L, Journal of the American Chemical Society 131, 1376 (2009).

[11] Liu N , Wang W J , Guo L W, Peng T H and Chen X L, Modern Physics Letters B 31, 1750116 (2017).

[12] Javan M B, Journal of Magnetism & Magnetic Materials 401, 656 (2016).

[13] Park J, Kim K H, Park Y R, Kim M K, Lee H, Jun C H, Koo S M and Ko S C, Applied Physics Letters 109, 031603 (2016).

[14] Burton J C, Sun L, Pophristic M, Lukac S J and Long F H, Journal of Applied Physics 84, 6268 (1998).

[15] Song B, Bao H Q, Li H, Lei M, Jian J K, Han J C, Zhang X H, Meng S H and Chen X L, Applied Physics Letters 94, 1019 (2009).

[16] Weingartner R, Wellmann P J, Bickermann M, Hofmann D, Straubinger T L and Winnacker A, Applied Physics Letters 80, 70 (2002).

[17] Pearton S J, Park Y D, Abernathy C R, Overberg M E, Thaler G T, Kim J, Ren F, Zavada J M and Wilson R G. F, Thin Solid Films 447, 493 (2004).

[18] Panknin D, Wirth H, Mucklich A and Skorupa W, Journal of Applied Physics 89, 3162(2001).

[19] Duijn-Arnold A V, Ikoma T, Poluektov O G, Baranov P G and Schmidt J, Physical Review B 57, 1607 (1998).

[20] Lin L, Zhang Z H, Tao H L, He M, Huang G L and Song B, Computational Materials Science 87, 72 (2014).

[21] Lin L, Zhu L H, Zhao R Q, Huang J T, Tao H L, Xu Y H and Zhang Z Y, New Journal of Chemistry 42, 9393 (2018).

[22] Drissi L B and Yahyaoui F E, Bulletin of Materials Science 40, 1081 (2017).

[23] Wang W Y, Xu J G, Zhang Y G and Li G X, Micronanoelectronic Technology 55, 98 (2018). (in Chinese)

[24] Li Y J, Li S L, Gong P, Li Y L, Cao M S and Fang X Y, Physica E: Low-dimensional Systems and Nanostructures 98, 191 (2018).

[25] Javan M B and Orimi R L, Journal of Computational & Theoretical Nanoscience 12, 1023 (2015).

[26] Zhuo S Y, Liu X, Gao P, Yan C F and Shi E W, Journal of Inorganic Materials 32, 51 (2017).

[27] Javan M B, Journal of Molecular Modeling 19, 3603 (2013).

[28] Su X L, Zhou W C, Xu J, Wang J B, He X H, Fu C, Li Z M and Kleebe H, Journal of the American Ceramic Society 95, 1388 (2012).

[29] Choudhary S and Qureshi S, Physics Letters Section A General Atomic & Solid State Physics 377, 430 (2013).

[30] Zhou P L, Shi R Q, He J F and Zheng S K, Acta Physica Sinica 62, 233101 (2013). (in Chinese)

[31] Sun X K, Jin X, Li M, Guo R S, An Y K and Liu J W, Superlattices & Microstructures 65, 278 (2014).

[32] Zhou P L, Zheng S K, Tian Y, Zhang S M, Shi R Q, He J F and Yan X B, Acta Physica Sinica 63, 053102 (2014). (in Chinese)

[33] Segall M D, Lindan Philip J D, Probert M J, Pickard C J, Hasnip P J, Clark S J and Payne M C, J. Phys: Condens Matter. 14, 2717 (2002).

[34] David Vanderbilt, Phys Rev B. 41, 7892 (1990).

[35] Perdew J. P, Burke K, Ernzerhof M. Generalized gradient approximation made simple, Phys Rev Lett. 77, 3865 (1996).

[36] Yan W J, Xie Q, Qin X M, Zhang C H, Zhang Z Z and Zhou S Y, Computational Materials Science 126, 336 (2017).

[37] Huda M N, Yan Y F and Al-Jassim M M, Chemical Physics Letters 479, 255 (2009).

[38] Zhou Y G , Yang P, Wang Z G, Xiao H Y , Zu X T, Sun X W, Khaleel M and Gao F, Applied Physics Letters. 98, 093108 (2011).