Nanoimprint Lithography Materials Development for Semiconductor Device Fabrication

被引:112
|
作者
Costner, Elizabeth A. [1 ]
Lin, Michael W. [1 ]
Jen, Wei-Lun [1 ]
Willson, C. Grant [1 ]
机构
[1] Univ Texas Austin, Dept Chem Engn, Austin, TX 78705 USA
来源
ANNUAL REVIEW OF MATERIALS RESEARCH | 2009年 / 39卷
基金
美国国家科学基金会;
关键词
nanofabrication; next-generation lithography; dual damascene; imprint template; S-FIL/R; FLASH IMPRINT LITHOGRAPHY; DIAMOND-LIKE CARBON; THERMAL NANOIMPRINT; SOFT LITHOGRAPHY; MOLECULAR-WEIGHT; CROSS-LINKERS; STEP; POLYMERS; PATTERN; DEFORMATION;
D O I
10.1146/annurev-matsci-082908-145336
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The term nanoimprint lithographs, (NIL) describes a number of processes used to form nanoscale structures by molding or embossing. Step and flash imprint lithography (S-FIL, a trademark of Molecular Imprints, Inc.) is a variant of NIL that can be performed at room temperature and low pressure. In S-FIL, a low-viscosity liquid imprint material is hardened in a patterned template by exposure to UV light. S-FIL is ideally suited to integrated-circuit device fabrication. Materials development for S-FIL has progressed significantly since its introduction in 1999. We discuss the status of material development, with specific emphasis on the imprint material and functional materials, template fabrication and release layers, and S-FIL process Variations.
引用
收藏
页码:155 / 180
页数:26
相关论文
共 50 条
  • [21] Fluorescent resist materials for nanoimprint lithography
    Nakagawa, Masaru
    Kobunshi, 2011, 60 (03) : 139 - 140
  • [22] Fabrication of air gap dielectrics by nanoimprint lithography
    Erenturk, Burcin
    Park, Myoung-Hwan
    Rotello, Vincent M.
    Carter, Kenneth R.
    MICROELECTRONIC ENGINEERING, 2012, 98 : 89 - 96
  • [23] Fabrication of biopolymer cantilevers using nanoimprint lithography
    Keller, Stephan S.
    Feidenhans'l, Nikolaj
    Fisker-Bodker, Nis
    Soulat, Damien
    Greve, Anders
    Plackett, David V.
    Boisen, Anja
    MICROELECTRONIC ENGINEERING, 2011, 88 (08) : 2294 - 2296
  • [24] Fabrication of T gate structures by nanoimprint lithography
    Macintyre, DS
    Chen, Y
    Lim, D
    Thoms, S
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, 2001, 19 (06): : 2797 - 2800
  • [25] Fabrication of metallic nanostructures by negative nanoimprint lithography
    Jiao, LY
    Gao, HJ
    Zhang, GM
    Xie, GY
    Zhou, X
    Zhang, YY
    Zhang, YY
    Gao, B
    Luo, G
    Wu, ZY
    Zhu, T
    Zhang, J
    Liu, ZF
    Mu, SC
    Yang, HF
    Gu, CZ
    NANOTECHNOLOGY, 2005, 16 (12) : 2779 - 2784
  • [26] Nanoimprint lithography for the fabrication of DNA electrophoresis chips
    Pépin, A
    Youinou, P
    Studer, V
    Lebib, A
    Chen, Y
    MICROELECTRONIC ENGINEERING, 2002, 61-2 : 927 - 932
  • [27] New approaches of mold fabrication for nanoimprint lithography
    Lin, Chien-Hung
    Chen, Rongshun
    JOURNAL OF MICRO-NANOLITHOGRAPHY MEMS AND MOEMS, 2011, 10 (01):
  • [28] Nanoimprint lithography for the fabrication of interdigitated cantilever arrays
    Luo, Gang
    Maximov, Ivan
    Adolph, David
    Graczyk, Mariusz
    Carlberg, Patrick
    Ghatnekar-Nilsson, Sara
    Hessman, Dan
    Zhu, Tao
    Liu, Zhongfan
    Xu, H. Q.
    Montelius, Lars
    NANOTECHNOLOGY, 2006, 17 (08) : 1906 - 1910
  • [29] Fabrication of Nb Superconducting Nanowires by Nanoimprint Lithography
    Zhao, Lu
    Jin, Yirong
    Li, Jie
    Deng, Hui
    Li, Hekang
    Huang, Keqiang
    Cui, Limin
    Zheng, Dongning
    IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 2015, 25 (03)
  • [30] Template fabrication on soft ultravialet nanoimprint lithography
    State Key Laboratory for Manufacturing Systems Engineering, Xi'an Jiaotong University, Xi'an 710049, China
    Hsi An Chiao Tung Ta Hsueh, 2008, 7 (880-884):
12345