Transfer of thin epitaxial silicon films by wafer bonding and splitting of double layered porous silicon for SOI fabrication

被引:0
|
作者
Zhu, Shi-Yang [1 ]
Li, Ai-Zhen [1 ]
Huang, Yi-Ping [1 ]
机构
[1] Dept. of Microelectron., Fudan Univ., Shanghai 200433, China
来源
Pan Tao Ti Hsueh Pao/Chinese Journal of Semiconductors | 2001年 / 22卷 / 12期
关键词
Bonding - Epitaxial growth - Heat treatment - Semiconducting films - Semiconductor device testing;
D O I
暂无
中图分类号
学科分类号
摘要
A double layered porous silicon with different porosity is formed on a heavy doped p-type Si (111) substrate by changing current density during the anodizing. A high quality epitaxial mono-crystalline silicon film is grown on the porous silicon using an ultra-high vacuum electron beam evaporator. This wafer is bonded with other silicon wafer with a thermal oxide layer at room temperature. The bonded pairs are split along the porous silicon layer during subsequent thermal annealing. Thus the epitaxial Si film is transferred to the oxidized wafer to form a silicon-on-insulator structure. SEM, XTEM, spreading resistance probe and Hall measurement show that the SOI structure has good structural and electrical quality.
引用
收藏
页码:1501 / 1506
相关论文
共 50 条
  • [31] Nanomechanical Properties of Standard and Strained SOI Films Fabricated by Wafer Bonding and Layer Splitting
    Mamun, M. A.
    Zhang, K.
    Baumgart, H.
    Elmustafa, A. A.
    SEMICONDUCTOR WAFER BONDING 13: SCIENCE, TECHNOLOGY, AND APPLICATIONS, 2014, 64 (05): : 27 - 32
  • [32] Effects of epitaxial silicon technology on the manufacturing performance of wafer fabrication lines
    Hughes, JC
    Neudeck, GW
    Uzsoy, R
    TWENTY THIRD IEEE/CPMT INTERNATIONAL ELECTRONICS MANUFACTURING TECHNOLOGY SYMPOSIUM, 1998, : 333 - 336
  • [33] Study of porous silicon layer for epitaxial thin film silicon solar cells
    Kraiem, J
    Tranvouez, E
    Quoizola, S
    Fave, A
    Kaminski, A
    Boyeaux, JP
    Brémond, G
    Lemiti, M
    CONFERENCE RECORD OF THE THIRTY-FIRST IEEE PHOTOVOLTAIC SPECIALISTS CONFERENCE - 2005, 2005, : 1107 - 1110
  • [34] Fabrication of short and thin silicon cantilevers for AFM with SOI wafers
    Yu, QK
    Qin, GT
    Darne, C
    Cai, CZ
    Wosik, W
    Pei, SS
    SENSORS AND ACTUATORS A-PHYSICAL, 2006, 126 (02) : 369 - 374
  • [35] Fabrication of the flexible sensor using SOI wafer by removing the thick silicon layer
    Noda, K
    Hoshino, K
    Matsumoto, K
    Shimoyama, I
    MEMS 2006: 19TH IEEE INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS, TECHNICAL DIGEST, 2006, : 122 - 125
  • [36] Optical pressure sensor head fabrication using ultra-thin silicon wafer anodic bonding
    Beggans, MH
    Ivanov, DI
    Fu, SG
    Digges, TG
    Farmer, KR
    DESIGN, TEST, AND MICROFABRICATION OF MEMS AND MOEMS, PTS 1 AND 2, 1999, 3680 : 773 - 782
  • [37] Fabrication of Uniform Nanoscale Cavities via Silicon Direct Wafer Bonding
    Thomson, Stephen R. D.
    Perron, Justin K.
    Kimball, Mark O.
    Mehta, Sarabjit
    Gasparini, Francis M.
    JOVE-JOURNAL OF VISUALIZED EXPERIMENTS, 2014, (83):
  • [38] Electrostatic bonding of a silicon master to a glass wafer for plastic microchannel fabrication
    Liu, Jun-Shan
    Liu, Chong
    Guo, Ji-Hong
    Wang, Li-Ding
    JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2006, 178 (1-3) : 278 - 282
  • [39] sSOI fabrication by wafer bonding and layer splitting of thin SiGe virtual substrates
    Radu, I.
    Himcinschi, C.
    Singh, R.
    Reiche, M.
    Goesele, U.
    Christiansen, S. H.
    Buca, D.
    Mantl, S.
    Loo, R.
    Caymax, M.
    MATERIALS SCIENCE AND ENGINEERING B-SOLID STATE MATERIALS FOR ADVANCED TECHNOLOGY, 2006, 135 (03): : 231 - 234
  • [40] Robustness of a selective epitaxial-growth process of silicon and its application to the fabrication of a high-quality hybrid SOI wafer
    Nagano, H
    Miyano, K
    Yamada, T
    Mizushima, I
    IEEE TRANSACTIONS ON SEMICONDUCTOR MANUFACTURING, 2005, 18 (01) : 13 - 18
12345