Low temperature silicon circuit layering for three-dimensional integration

被引:12
|
作者
Kim, SK [1 ]
Xue, L [1 ]
Tiwari, S [1 ]
机构
[1] Cornell Univ, Dept Elect & Comp Engn, Ithaca, NY 14853 USA
来源
2004 IEEE INTERNATIONAL SOI CONFERENCE, PROCEEDINGS | 2004年
关键词
D O I
10.1109/SOI.2004.1391589
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
We report a thin device layer (similar to 1mum) transfer technique that allows wafer scale transplanting of fully fabricated circuits of SOI on to a host substrate to produce 3-D integrated circuits. This 3-D Parallel Layering Process (3-D PLP) uses temperature below 330 C and incorporates BCB as the dielectric bonding layer. The technique is particularly suitable for 3-D mixed-signal or heterogeneous integration applications where digital and RF/analog circuits benefit from separate manufacturing. Device layer to layer alignment of 3 mum is demonstrated. Electrical measurement of the transistors on the SOI donor wafer before and after transfer process is presented.
引用
收藏
页码:136 / 138
页数:3
相关论文
共 50 条
  • [1] Low-temperature polymer-based three-dimensional silicon integration
    Kim, Sang K.
    Xue, Lei
    Tiwari, Sandip
    IEEE ELECTRON DEVICE LETTERS, 2007, 28 (08) : 706 - 709
  • [2] Overview and Outlook of Three-Dimensional Integrated Circuit Packaging, Three-Dimensional Si Integration, and Three-Dimensional Integrated Circuit Integration
    Lau, John H.
    JOURNAL OF ELECTRONIC PACKAGING, 2014, 136 (04)
  • [3] Three-dimensional silicon integration
    Knickerbocker, J. U.
    Andry, P. S.
    Dang, B.
    Horton, R. R.
    Interrante, M. J.
    Patel, C. S.
    Polastre, R. J.
    Sakuma, K.
    Sirdeshmukh, R.
    Sprogis, E. J.
    Sri-Jayantha, S. M.
    Stephens, A. M.
    Topol, A. W.
    Tsang, C. K.
    Webb, B. C.
    Wright, S. L.
    IBM JOURNAL OF RESEARCH AND DEVELOPMENT, 2008, 52 (06) : 553 - 569
  • [4] Three-dimensional silicon integration
    Knickerbocker, John U.
    Andry, Paul S.
    Dang, Bing
    Horton, Raymond R.
    Interrante, Mario J.
    Patel, Chirag S.
    Polastre, Robert J.
    Sakuma, Katsuyuki
    Sirdeshmukh, Ranjani
    Sprogis, Edmund J.
    Sri-Jayantha, Sri M.
    Stephens, Antonio M.
    Topol, Anna W.
    Tsang, Cornelia K.
    Webb, Bucknell C.
    Wright, Steven L.
    IBM Journal of Research and Development, 2008, 52 (06): : 553 - 569
  • [5] Three-dimensional integration in silicon electronics
    Tiwari, S
    Kim, HS
    Kim, S
    Kumar, A
    Liu, CC
    Xue, L
    IEEE LESTER EASTMAN CONFERENCE ON HIGH PERFORMANCE DEVICES, PROCEEDINGS, 2002, : 24 - 33
  • [6] Low-frequency Testing of Through Silicon Vias for Defect Diagnosis in Three-dimensional Integration Circuit Stacking Technology
    Xu, Yichao
    Miao, Min
    Fang, Runiu
    Sun, Xin
    Zhu, Yunhui
    Sun, Minggang
    Wang, Guanjiang
    Jin, Yufeng
    2014 IEEE 64TH ELECTRONIC COMPONENTS AND TECHNOLOGY CONFERENCE (ECTC), 2014, : 1986 - 1991
  • [7] Low/Room Temperature Wafer Bonding Technologies for Three-Dimensional Integration
    Kawano, M.
    2015 International Conference on Electronic Packaging and iMAPS All Asia Conference (ICEP-IAAC), 2015, : 440 - 443
  • [8] Three-dimensional integration of silicon chips for automotive applications
    Weber, Werner
    Enabling Technologies for 3-D Integration, 2007, 970 : 103 - 113
  • [9] Optimization of through silicon via for three-dimensional integration
    Du, Li
    Shi, Tielin
    Chen, Pengfei
    Su, Lei
    Shen, Junjie
    Shao, Jie
    Liao, Guanglan
    MICROELECTRONIC ENGINEERING, 2015, 139 : 31 - 38
  • [10] Low Temperature Bonding of Sn/In-Cu Interconnects for Three-Dimensional Integration Applications
    Tzeng, Ruoh-Ning
    Huang, Yan-Pin
    Chien, Yu-San
    Chuang, Ching-Te
    Hwang, Wei
    Chiou, Jin-Chern
    Shy, Ming-Shaw
    Lin, Teu-Hua
    Chen, Kou-Hua
    Chiu, Chi-Tsung
    Tong, Ho-Ming
    Chen, Kuan-Neng
    PROCEEDINGS OF THE 2013 IEEE INTERNATIONAL INTERCONNECT TECHNOLOGY CONFERENCE (IITC), 2013,
12345