Carbon inclusions in silicon carbide single crystals grown by physical vapor transport method

被引:0
|
作者
Yang, Kun [1 ]
Yang, Xiang-Long [1 ]
Cui, Ying-Xin [1 ]
Peng, Yan [1 ]
Chen, Xiu-Fang [1 ]
Hu, Xiao-Bo [1 ]
Xu, Xian-Gang [1 ]
机构
[1] Yang, Kun
[2] Yang, Xiang-Long
[3] Cui, Ying-Xin
[4] Peng, Yan
[5] Chen, Xiu-Fang
[6] Hu, Xiao-Bo
[7] Xu, Xian-Gang
来源
Xu, Xian-Gang | 1602年 / Chinese Ceramic Society卷 / 43期
关键词
4H-SiC - Carbon particle - Formation mechanism - Graphite plates - Particular distribution - Physical vapor transport - PVT - SiC single crystals;
D O I
暂无
中图分类号
学科分类号
摘要
4H-SiC single crystal with a diameter of 3 inch was grown by physical vapor transport (PVT) method. Particular distribution of weakly connected carbon particles on the surface of source powder was intentionally created during the growth process by mounting a graphite plate with multiple perforative round holes on the surface of the source powder. One-to-one correspondence between distribution of carbon inclusions in the as-grown 4H-SiC single crystal and the pattern of graphite plate was observed. The formation mechanism of carbon inclusion was proposed. It was believed that the generation of carbon particles in growth cavity is a source of carbon inclusions. The methods for reducing carbon inclusions in SiC single crystal are further proposed.
引用
收藏
页码:1602 / 1606
相关论文
共 50 条
  • [41] IMPERFECTION OBSERVATIONS IN VAPOR-GROWN SILICON SINGLE CRYSTALS
    JUNGBLUT.ED
    JOURNAL OF APPLIED PHYSICS, 1967, 38 (08) : 3413 - &
  • [42] Carbon inclusions in sintered silicon carbide
    Hamminger, R., 1741, Pharmacotherapy Publications Inc. (72):
  • [43] Formation of thermal decomposition cavities in physical vapor transport of silicon carbide
    Sanchez, EK
    Kuhr, T
    Heydemann, VD
    Snyder, DW
    Rohrer, GS
    Skowronski, M
    JOURNAL OF ELECTRONIC MATERIALS, 2000, 29 (03) : 347 - 352
  • [44] Nucleation of dislocations during physical vapor transport growth of silicon carbide
    Sanchez, EK
    Heydemann, VD
    Snyder, DW
    Rohrer, GS
    Skowronski, M
    SILICON CARBIDE AND RELATED MATERIALS - 1999 PTS, 1 & 2, 2000, 338-3 : 63 - 66
  • [45] Enlargement of Silicon Carbide Lely Platelet by Physical Vapor Transport Technique
    Shi, Yonggui
    Yang, Xinghua
    Wang, Dong
    Zhang, Peng
    Zhang, Jincheng
    Hao, Yue
    Yang, Jianfeng
    MATERIALS AND MANUFACTURING PROCESSES, 2013, 28 (11) : 1248 - 1252
  • [46] Nucleation of dislocations during physical vapor transport growth of silicon carbide
    Sanchez, E.K.
    Heydemann, V.D.
    Snyder, D.W.
    Rohrer, G.S.
    Skowronski, M.
    Materials Science Forum, 2000, 338
  • [47] Analysis of graphitization during physical vapor transport growth of silicon carbide
    Wellmann, PJ
    Herro, Z
    Sakwe, SA
    Masri, P
    Bogdanov, M
    Karpov, S
    Kulik, A
    Ramm, M
    Makarov, Y
    SILICON CARBIDE AND RELATED MATERIALS 2003, PTS 1 AND 2, 2004, 457-460 : 55 - 58
  • [48] Formation of thermal decomposition cavities in physical vapor transport of silicon carbide
    Edward K. Sanchez
    Thomas Kuhr
    Volker D. Heydemann
    David W. Snyder
    Gregory S. Rohrer
    Marek Skowronski
    Journal of Electronic Materials, 2000, 29 : 347 - 352
  • [49] High quality SiC crystals grown by the physical vapor transport method with a new crucible design
    Ku, Kap-Ryeol
    Kim, Jung-Gyu
    Seo, Jung-Doo
    Lee, Ju-Young
    Kyun, Myung-Ok
    Lee, Won-Jae
    Lee, Geun-Hyoung
    Kim, Il-Soo
    Shin, Byoung-Chul
    SILICON CARBIDE AND RELATED MATERIALS 2005, PTS 1 AND 2, 2006, 527-529 : 83 - +
  • [50] ON THE POSSIBILITY OF GROWING SINGLE CRYSTALS OF SILICON CARBIDE FROM VAPOR.
    Smiltens, J.
    High Temperatures - High Pressures, 1975, 7 (02): : 187 - 198
12345