Adsorption of organic molecules by photochemical reaction on Cl: Si(1 1 1) and H:Si(1 1 1) evaluated by HREELS

Katsuhiko Nishiyama, Yosuke Tanaka, Hiroshi Harada, Taro Yamada, Daisuke Niwa, Tomoyuki Inoue, Takayuki Homma, Tetsuya Osaka, Isao Taniguchi

研究成果: Article

11 引用 (Scopus)

抄録

The covalent attachment of alkyl groups to silicon surfaces, via carbon-silicon bond formation, has been attempted using gas-surface reactions starting from Cl-terminated Si(1 1 1) or H:Si(1 1 1) under ultraviolet light irradiation. The formation of Cl-terminated Si(1 1 1) and its resulting stability were examined prior to deposition of organic molecules. High-resolution electron energy loss spectroscopy (HREELS) was utilized for detecting surface-bound adsorbates. The detection of photo-deposited organic species on Cl:Si(1 1 1) from gas-phase CH4 or CH2{double bond, long}CH2 was not significant. On H:Si(1 1 1), it was evident that after the photoreaction with gas-phase C2H5Cl, C2H5 groups were chemically bonded to the surface Si atoms through single covalent bonds. The C2H5 groups were thermally stable at temperatures below 600 K. Alkyl monolayers prepared on silicon surfaces by dry process will lead to a new prospective technology of nanoscale fabrication and biochemical applications.

元の言語English
ページ(範囲)1965-1972
ページ数8
ジャーナルSurface Science
600
発行部数10
DOI
出版物ステータスPublished - 2006 5 15

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Photochemical reactions
Electron energy loss spectroscopy
photochemical reactions
Silicon
energy dissipation
electron energy
Adsorption
Molecules
adsorption
Gases
high resolution
spectroscopy
molecules
silicon
vapor phases
Covalent bonds
covalent bonds
Surface reactions
Adsorbates
ultraviolet radiation

ASJC Scopus subject areas

  • Physical and Theoretical Chemistry
  • Condensed Matter Physics
  • Surfaces and Interfaces

これを引用

Nishiyama, K., Tanaka, Y., Harada, H., Yamada, T., Niwa, D., Inoue, T., ... Taniguchi, I. (2006). Adsorption of organic molecules by photochemical reaction on Cl: Si(1 1 1) and H:Si(1 1 1) evaluated by HREELS. Surface Science, 600(10), 1965-1972. https://doi.org/10.1016/j.susc.2006.02.046

Adsorption of organic molecules by photochemical reaction on Cl : Si(1 1 1) and H:Si(1 1 1) evaluated by HREELS. / Nishiyama, Katsuhiko; Tanaka, Yosuke; Harada, Hiroshi; Yamada, Taro; Niwa, Daisuke; Inoue, Tomoyuki; Homma, Takayuki; Osaka, Tetsuya; Taniguchi, Isao.

:: Surface Science, 巻 600, 番号 10, 15.05.2006, p. 1965-1972.

研究成果: Article

Nishiyama, K, Tanaka, Y, Harada, H, Yamada, T, Niwa, D, Inoue, T, Homma, T, Osaka, T & Taniguchi, I 2006, 'Adsorption of organic molecules by photochemical reaction on Cl: Si(1 1 1) and H:Si(1 1 1) evaluated by HREELS', Surface Science, 巻. 600, 番号 10, pp. 1965-1972. https://doi.org/10.1016/j.susc.2006.02.046
Nishiyama, Katsuhiko ; Tanaka, Yosuke ; Harada, Hiroshi ; Yamada, Taro ; Niwa, Daisuke ; Inoue, Tomoyuki ; Homma, Takayuki ; Osaka, Tetsuya ; Taniguchi, Isao. / Adsorption of organic molecules by photochemical reaction on Cl : Si(1 1 1) and H:Si(1 1 1) evaluated by HREELS. :: Surface Science. 2006 ; 巻 600, 番号 10. pp. 1965-1972.
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AB - The covalent attachment of alkyl groups to silicon surfaces, via carbon-silicon bond formation, has been attempted using gas-surface reactions starting from Cl-terminated Si(1 1 1) or H:Si(1 1 1) under ultraviolet light irradiation. The formation of Cl-terminated Si(1 1 1) and its resulting stability were examined prior to deposition of organic molecules. High-resolution electron energy loss spectroscopy (HREELS) was utilized for detecting surface-bound adsorbates. The detection of photo-deposited organic species on Cl:Si(1 1 1) from gas-phase CH4 or CH2{double bond, long}CH2 was not significant. On H:Si(1 1 1), it was evident that after the photoreaction with gas-phase C2H5Cl, C2H5 groups were chemically bonded to the surface Si atoms through single covalent bonds. The C2H5 groups were thermally stable at temperatures below 600 K. Alkyl monolayers prepared on silicon surfaces by dry process will lead to a new prospective technology of nanoscale fabrication and biochemical applications.

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