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Wet Chemical Cleaning of Germanium Surfaces for Growth of High-k Dielectrics

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Abstract

One of the major difficulties preventing the wide use of germanium (epi or bulk) as a gate material is the poor stability of its oxide, leading to reproducibility and reliability issues. In contrast to silicon, the nature and thickness of Ge “native” oxides are history dependent, and most phases of germanium oxide are water-soluble. As a result, the procedures for passivating Ge surfaces with hydrogen (HF last) are more complex and less forgiving. We have used infrared absorption spectroscopy and x-ray photoelectron spectroscopy to investigate the nature of oxidized and H-terminated Ge surfaces. The GeO2, GeO and GeC phases have been identified and quantified as a function of processing conditions. The stability of the H-terminated surfaces has been examined in air and in controlled environments. The H-passivated Ge surfaces are found to be much less stable in air than H-terminated Si surfaces.

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Authors and Affiliations

  1. Department of Chemistry and Chemical Biology, Rutgers University, NJ, 136 Frelinghuysen Rd, 08854, Piscataway, USA

    Sandrine Rivillon Amy & Yves J. Chabal

  2. Electrical Engineering Department, Princeton University, NJ, 08544, Princeton, USA

    Fabrice Amy & Antoine Kahn

  3. AGS dielectrics, Tx, 78741, Sematech, Austin, USA

    Cristiano Krugg & Paul Kirsch

Authors
  1. Sandrine Rivillon Amy
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  2. Yves J. Chabal
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  3. Fabrice Amy
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  4. Antoine Kahn
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  5. Cristiano Krugg
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  6. Paul Kirsch
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Amy, S.R., Chabal, Y.J., Amy, F. et al. Wet Chemical Cleaning of Germanium Surfaces for Growth of High-k Dielectrics. MRS Online Proceedings Library 917, 105 (2006). https://doi.org/10.1557/PROC-0917-E01-05

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  • DOI: https://doi.org/10.1557/PROC-0917-E01-05

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