Initial oxidation processes of ultrathin hafnium film and hafnium disilicide islands on Si(100)-2 × 1 surfaces studied using core-level X-ray photoelectron spectroscopy

•Chemical states of clean ultrathin hafnium film on Si(100) were analyzed by core-level photoelectron spectroscopy.•Initial oxidation of clean ultrathin hafnium film on Si(100) was investigated by core-level photoelectron spectroscopy.•Metallic hafnium on Si(100) rapidly oxidized, while silicides at...

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Published inSurface science Vol. 693; p. 121551
Main Authors Kakiuchi, Takuhiro, Yamasaki, Hideki, Tsukada, Chie, Yoshigoe, Akitaka
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2020
Subjects
Core-level photoelectron spectroscopy
Hafnium oxides
High-dielectric-constant material
Initial oxidation process
Metal-insulator-semiconductor structure
Synchrotron radiation
Hafnium oxides
Metal-insulator-semiconductor structure
Core-level photoelectron spectroscopy
High-dielectric-constant material
Initial oxidation process
Synchrotron radiation
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Abstract •Chemical states of clean ultrathin hafnium film on Si(100) were analyzed by core-level photoelectron spectroscopy.•Initial oxidation of clean ultrathin hafnium film on Si(100) was investigated by core-level photoelectron spectroscopy.•Metallic hafnium on Si(100) rapidly oxidized, while silicides at interface did not.•After annealing over 1073 K, oxygen atoms were entirely removed from the ultrathin hafnium dioxide.•Dangling bonds on Si(100)-2 × 1 surface with residual hafnium atoms preferentially oxidized because back-bonds of the Si dimers were occupied by hafnium. We investigated the initial oxidation of ultrathin hafnium (Hf) film on Si(100)-2 × 1 [Hf/Si(100)] using high resolution Hf 4f5/2, 7/2, Si 2p1/2, 3/2, and O 1s core-level photoelectron spectroscopy. Ultrathin Hf/Si(100) film was prepared using electron-beam evaporation in an ultrahigh vacuum chamber below 1.5 × 10−8 Pa. Our results revealed the formation of metallic Hf layers containing a few Si atoms on the Si(100)-2 × 1 substrate. A Hf monosilicide (HfSi) component was also formed in the vicinity of the interface region. Metallic Hf rapidly oxidized, transforming into hafnium dioxide (HfO2) and its suboxides, after exposure to O2 molecules at <4.1 Langmuir. In accordance with the oxidation of metallic Hf, Si atoms in metallic Hf layers were also oxidized into typical Si (sub)oxides and Hf silicate. The other HfSi component at the interface was nearly unreactive with O2 molecules. These facts suggest that the metallic Hf component plays a vital role in the initial oxidation of the ultrathin Hf/Si(100) film. After annealing from 873 K to 973 K, the Hf suboxides in low ionic valences progressed into fully oxidized HfO2. Once the annealing temperature reached ~1073 K, oxygen atoms were entirely removed from the ultrathin HfO2/Si(100) film containing SiO2 at the interface. Simultaneously, ultrathin HfO2 layers changed into islands of Hf disilicide (i-HfSi2) on a bare Si(100)-2 × 1 surface. The i-HfSi2 component showed slight reactivity with O2 molecules at 298 K. In contrast to the initial oxidation of clean Si(100)-2 × 1 surface, the dangling bonds on bare Si(100)-2 × 1 surface among i-HfSi2 oxidized preferentially. This was due to some back-bonds of the Si dimers on bare Si(100)-2 × 1 that were occupied by Hf atoms in the form of HfSi2. [Display omitted]
AbstractList •Chemical states of clean ultrathin hafnium film on Si(100) were analyzed by core-level photoelectron spectroscopy.•Initial oxidation of clean ultrathin hafnium film on Si(100) was investigated by core-level photoelectron spectroscopy.•Metallic hafnium on Si(100) rapidly oxidized, while silicides at interface did not.•After annealing over 1073 K, oxygen atoms were entirely removed from the ultrathin hafnium dioxide.•Dangling bonds on Si(100)-2 × 1 surface with residual hafnium atoms preferentially oxidized because back-bonds of the Si dimers were occupied by hafnium. We investigated the initial oxidation of ultrathin hafnium (Hf) film on Si(100)-2 × 1 [Hf/Si(100)] using high resolution Hf 4f5/2, 7/2, Si 2p1/2, 3/2, and O 1s core-level photoelectron spectroscopy. Ultrathin Hf/Si(100) film was prepared using electron-beam evaporation in an ultrahigh vacuum chamber below 1.5 × 10−8 Pa. Our results revealed the formation of metallic Hf layers containing a few Si atoms on the Si(100)-2 × 1 substrate. A Hf monosilicide (HfSi) component was also formed in the vicinity of the interface region. Metallic Hf rapidly oxidized, transforming into hafnium dioxide (HfO2) and its suboxides, after exposure to O2 molecules at <4.1 Langmuir. In accordance with the oxidation of metallic Hf, Si atoms in metallic Hf layers were also oxidized into typical Si (sub)oxides and Hf silicate. The other HfSi component at the interface was nearly unreactive with O2 molecules. These facts suggest that the metallic Hf component plays a vital role in the initial oxidation of the ultrathin Hf/Si(100) film. After annealing from 873 K to 973 K, the Hf suboxides in low ionic valences progressed into fully oxidized HfO2. Once the annealing temperature reached ~1073 K, oxygen atoms were entirely removed from the ultrathin HfO2/Si(100) film containing SiO2 at the interface. Simultaneously, ultrathin HfO2 layers changed into islands of Hf disilicide (i-HfSi2) on a bare Si(100)-2 × 1 surface. The i-HfSi2 component showed slight reactivity with O2 molecules at 298 K. In contrast to the initial oxidation of clean Si(100)-2 × 1 surface, the dangling bonds on bare Si(100)-2 × 1 surface among i-HfSi2 oxidized preferentially. This was due to some back-bonds of the Si dimers on bare Si(100)-2 × 1 that were occupied by Hf atoms in the form of HfSi2. [Display omitted]
ArticleNumber 121551
Author Yamasaki, Hideki
Kakiuchi, Takuhiro
Yoshigoe, Akitaka
Tsukada, Chie
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  givenname: Akitaka
  surname: Yoshigoe
  fullname: Yoshigoe, Akitaka
  organization: Materials Sciences Research Center, Japan Atomic Energy Agency, 1-1-1 Sayo-cho, Sayo-gun, Hyogo 679-5148, Japan
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CitedBy_id crossref_primary_10_1021_acs_jpcc_4c02368
crossref_primary_10_3762_bjnano_13_12
crossref_primary_10_1016_j_susc_2020_121691
crossref_primary_10_1021_acs_langmuir_1c02711
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Keywords Hafnium oxides
Metal-insulator-semiconductor structure
Core-level photoelectron spectroscopy
High-dielectric-constant material
Initial oxidation process
Synchrotron radiation
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Snippet •Chemical states of clean ultrathin hafnium film on Si(100) were analyzed by core-level photoelectron spectroscopy.•Initial oxidation of clean ultrathin...
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SubjectTerms Core-level photoelectron spectroscopy
Hafnium oxides
High-dielectric-constant material
Initial oxidation process
Metal-insulator-semiconductor structure
Synchrotron radiation
Title Initial oxidation processes of ultrathin hafnium film and hafnium disilicide islands on Si(100)-2 × 1 surfaces studied using core-level X-ray photoelectron spectroscopy
URI https://dx.doi.org/10.1016/j.susc.2019.121551
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