High-Quality 4H-SiC Homogeneous Epitaxy via Homemade Horizontal Hot-Wall Reactor

被引:0
|
作者
Gong, Xiaoliang [1 ,2 ]
Xie, Tianle [2 ]
Hu, Fan [2 ]
Li, Ping [2 ]
Ba, Sai [2 ]
Wang, Liancheng [1 ]
Zhu, Wenhui [1 ]
机构
[1] Cent South Univ, Coll Mech & Elect Engn, State Key Lab Precis Mfg Extreme Serv Performance, Changsha 410083, Peoples R China
[2] Changsha Semicond Proc Equipment Inst, Changsha 410114, Peoples R China
来源
COATINGS | 2024年 / 14卷 / 07期
关键词
silicon carbide homoepitaxy; nitrogen doping; horizontal hot-wall reactor; CHEMICAL-VAPOR-DEPOSITION; LAYER GROWTH; SIC EPITAXY; DISLOCATION; NITROGEN; CVD;
D O I
10.3390/coatings14070911
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
In this paper, using a self-developed silicon carbide epitaxial reactor, we obtained high-quality 6-inch epitaxial wafers with doping concentration uniformity less than 2%, thickness uniformity less than 1% and roughness less than 0.2 nm on domestic substrates, which meets the application requirements of high-quality Schottky Barrier Diode (SBD) and Metal-Oxide-Semiconductor Field-Effect Transistor (MOSFET) devices. We found that increasing the carrier gas flow rate can minimize source gas depletion and optimize the doping uniformity of the 6-inch epitaxial wafer from over 5% to less than 2%. Moreover, reducing the C/Si ratio significantly can suppress the "two-dimensional nucleation growth mode" and improve the wafer surface roughness Ra from 1.82 nm to 0.16 nm.
引用
收藏
页数:11
相关论文
共 50 条
  • [31] Fast epitaxial growth of 4H-SiC by chimney-type hot-wall CVD
    Fujihira, K
    Kimoto, T
    Matsunami, H
    SILICON CARBIDE AND RELATED MATERIALS 2001, PTS 1 AND 2, PROCEEDINGS, 2002, 389-3 : 175 - 178
  • [32] Numerical analysis of growth condition on SiC-CVD in the horizontal hot-wall reactor
    Nishizawa, SI
    Pons, M
    SILICON CARBIDE AND RELATED MATERIALS 2004, 2005, 483 : 53 - 56
  • [33] Characterization of high-quality 4H-SiC epitaxial layers
    Kimoto, T
    Itoh, A
    Matsunami, H
    Sridhara, S
    Clemen, LL
    Devaty, RP
    Choyke, WJ
    Dalibor, T
    Peppermuller, C
    Pensl, G
    SILICON CARBIDE AND RELATED MATERIALS 1995, 1996, 142 : 393 - 396
  • [34] Growth of device quality 4H-SiC by high velocity epitaxy
    Yakimova, R
    Syväjärvi, M
    Ciechonski, RR
    Wahab, Q
    SILICON CARBIDE AND RELATED MATERIALS 2003, PRTS 1 AND 2, 2004, 457-460 : 201 - 204
  • [35] Aluminum incorporation into 4H-SiC layers during epitaxial growth in a hot-wall CVD system
    Wagner, G
    Leitenberger, W
    Irmscher, K
    Schmid, F
    Laube, M
    Pensl, G
    SILICON CARBIDE AND RELATED MATERIALS 2001, PTS 1 AND 2, PROCEEDINGS, 2002, 389-3 : 207 - 210
  • [36] Aluminum incorporation into 4H-SiC layers during epitaxial growth in a hot-wall CVD system
    Wagner, G.
    Leitenberger, W.
    Irmscher, K.
    Schmid, F.
    Laube, M.
    Pensl, G.
    Materials Science Forum, 2002, 389-393 (01) : 207 - 210
  • [37] Characterization and growth of high quality ZnTe epilayers by hot-wall epitaxy
    Nam, S
    Rhee, J
    O, BS
    Lee, KS
    Choi, YD
    Jeon, GN
    Lee, CH
    JOURNAL OF CRYSTAL GROWTH, 1997, 180 (01) : 47 - 53
  • [38] Structural improvement of seeds for bulk crystal growth by using hot-wall CVD of 4H-SiC
    Wagner, A
    Schulz, D
    Doerschel, J
    SILICON CARBIDE AND RELATED MATERIALS 2004, 2005, 483 : 109 - 112
  • [39] Characterization and growth of high quality ZnTe epilayers by hot-wall epitaxy
    Chungnam Natl Univ, Taejon, Korea, Republic of
    J Cryst Growth, 1 (47-53):
  • [40] Free electron density and mobility in high-quality 4H-SiC
    Pernot, J
    Contreras, S
    Camassel, J
    Robert, JL
    Zawadzki, W
    Neyret, E
    Di Cioccio, L
    APPLIED PHYSICS LETTERS, 2000, 77 (26) : 4359 - 4361
12345