Shallow and deep dry etching of silicon using ICP cryogenic reactive ion etching process

被引:0
|
作者
Ü. Sökmen
A. Stranz
S. Fündling
S. Merzsch
R. Neumann
H.-H. Wehmann
E. Peiner
A. Waag
机构
[1] Braunschweig University of Technology,Institute of Semiconductor Technology
来源
Microsystem Technologies | 2010年 / 16卷
关键词
Etch Rate; Passivation Layer; Thermoelectric Generator; Black Silicon; Sapphire Plate;
D O I
暂无
中图分类号
学科分类号
摘要
We achieved to etch nanostructures as well as structures with high aspect ratios in silicon using an inductively coupled plasma cryogenic deep reactive ion etching process. We etched cantilevers, submicron diameter pillars, membranes and deep structures in silicon with etch rates between 13 nm/min and 4 μm/min. These structures find applications as templates for metal organic vapour phase epitaxial growth of GaN-based nanostructures for optoelectronic devices or they are the basic constituents of a nanoparticle balance in the subnanogram range and of a thermoelectric generator.
引用
收藏
页码:863 / 870
页数:7
相关论文
共 50 条
  • [1] Shallow and deep dry etching of silicon using ICP cryogenic reactive ion etching process
    Soekmen, Ue
    Stranz, A.
    Fuendling, S.
    Merzsch, S.
    Neumann, R.
    Wehmann, H. -H.
    Peiner, E.
    Waag, A.
    [J]. MICROSYSTEM TECHNOLOGIES-MICRO-AND NANOSYSTEMS-INFORMATION STORAGE AND PROCESSING SYSTEMS, 2010, 16 (05): : 863 - 870
  • [2] ICP cryogenic dry etching for shallow and deep etching of silicon
    Soekmen, Ue
    Balke, M.
    Stranz, A.
    Fuendling, S.
    Peiner, E.
    Wehmann, H. -H.
    Waag, A.
    [J]. SMART SENSORS, ACTUATORS, AND MEMS IV, 2009, 7362
  • [3] Deep reactive ion etching of silicon using an aluminum etching mask
    Wang, WC
    Ho, JN
    Reinhall, P
    [J]. OPTO-IRELAND 2002: OPTICS AND PHOTONICS TECHNOLOGIES AND APPLICATIONS, PTS 1 AND 2, 2003, 4876 : 633 - 640
  • [4] Deep reactive ion etching of silicon using an aluminum etching mask
    Wang, WC
    Ho, JN
    Reinhall, P
    [J]. ASDAM '02, CONFERENCE PROCEEDINGS, 2002, : 31 - 34
  • [5] Deep reactive ion etching of silicon using non-ICP-based equipment
    Du, Zaifa
    Nie, Junyang
    Li, Dianlun
    Guo, Weiling
    Yan, Qun
    Wang, Le
    Guo, Tailiang
    Sun, Jie
    [J]. APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 2020, 126 (07):
  • [6] Deep reactive ion etching of silicon using non-ICP-based equipment
    Zaifa Du
    Junyang Nie
    Dianlun Li
    Weiling Guo
    Qun Yan
    Le Wang
    Tailiang Guo
    Jie Sun
    [J]. Applied Physics A, 2020, 126
  • [7] Deep reactive ion etching of silicon
    Ayón, AA
    Chen, KS
    Lohner, KA
    Spearing, SM
    Sawin, HH
    Schmidt, MA
    [J]. MATERIALS SCIENCE OF MICROELECTROMECHANICAL SYSTEMS (MEMS) DEVICES, 1999, 546 : 51 - 61
  • [8] Deep-reactive ion etching of silicon nanowire arrays at cryogenic temperatures
    Xu, Jiushuai
    Refino, Andam Deatama
    Delvallee, Alexandra
    Seibert, Sebastian
    Schwalb, Christian
    Hansen, Poul Erik
    Foldyna, Martin
    Siaudinyte, Lauryna
    Hamdana, Gerry
    Wasisto, Hutomo Suryo
    Kottmeier, Jonathan
    Dietzel, Andreas
    Weimann, Thomas
    Pruessing, Jan Kristen
    Bracht, Hartmut
    Peiner, Erwin
    [J]. APPLIED PHYSICS REVIEWS, 2024, 11 (02):
  • [9] DRY PROCESS TECHNOLOGY (REACTIVE ION ETCHING)
    BONDUR, JA
    [J]. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY, 1976, 13 (05): : 1023 - 1029
  • [10] Dry fabrication of microdevices by the combination of focused ion beam and cryogenic deep reactive ion etching
    Chekurov, N.
    Grigoras, K.
    Sainiemi, L.
    Peltonen, A.
    Tittonen, I.
    Franssila, S.
    [J]. JOURNAL OF MICROMECHANICS AND MICROENGINEERING, 2010, 20 (08)
12345