Vibrational spectroscopy of adsorbates on the (111) and (100) surfaces of lanthanum hexaboride

Thomas Yorisaki; Aashani Tillekaratne; Yukihiro Moriya; Chuhei Oshima; Shigeki Otani; Michael Trenary

doi:10.1007/978-90-481-9818-4-12

Vibrational spectroscopy of adsorbates on the (111) and (100) surfaces of lanthanum hexaboride

Thomas Yorisaki, Aashani Tillekaratne, Yukihiro Moriya, Chuhei Oshima, Shigeki Otani, Michael Trenary^*

^*Corresponding author for this work

Waseda University

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Reflection absorption infrared spectroscopy has been used to study the adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111)adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111) surfaces of lanthanum hexaboride. Exposure of the surface at temperatures of 95 K and above to O₂ produces atomic oxygen on the surface and yields vibrational peaks in good agreement with those observed previously with the technique of high resolution electron energy loss spectroscopy (HREELS). As in the previous HREELS studies, the peaks observed in response to oxygen adsorption are assigned to vibrations of the B₆ octahedra that gain intensity due to a decrease in electronic screening of surface dipoles. In the case of CO, molecular adsorption occurs at 95 K and gives rise to a variety of C-O stretch peaks, depending on adsorption site.Decaborane adsorbs molecularly at 95 K and gives rise to intense peaks in the B-H stretch region that evolve with annealing temperature into a single peak at 2571cm^-1 due to an unidentified surface intermediate possessing BH bonds.

Original language	English
Title of host publication	NATO Science for Peace and Security Series B: Physics and Biophysics
Pages	181-193
Number of pages	13
DOIs	https://doi.org/10.1007/978-90-481-9818-4-12
Publication status	Published - 2011

Publication series

Name	NATO Science for Peace and Security Series B: Physics and Biophysics
ISSN (Print)	18746500

Keywords

carbon monoxide
decaborane
lanthanum hexaboride
reflection absorption infrared spectroscopy
surface vibrational spectroscopy

ASJC Scopus subject areas

Biophysics
Biotechnology
Physics and Astronomy(all)
Electrical and Electronic Engineering

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10.1007/978-90-481-9818-4-12

Cite this

Yorisaki, T., Tillekaratne, A., Moriya, Y., Oshima, C., Otani, S., & Trenary, M. (2011). Vibrational spectroscopy of adsorbates on the (111) and (100) surfaces of lanthanum hexaboride. In NATO Science for Peace and Security Series B: Physics and Biophysics (pp. 181-193). (NATO Science for Peace and Security Series B: Physics and Biophysics). https://doi.org/10.1007/978-90-481-9818-4-12

Vibrational spectroscopy of adsorbates on the (111) and (100) surfaces of lanthanum hexaboride. / Yorisaki, Thomas; Tillekaratne, Aashani; Moriya, Yukihiro et al.
NATO Science for Peace and Security Series B: Physics and Biophysics. 2011. p. 181-193 (NATO Science for Peace and Security Series B: Physics and Biophysics).

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Yorisaki, T, Tillekaratne, A, Moriya, Y, Oshima, C, Otani, S & Trenary, M 2011, Vibrational spectroscopy of adsorbates on the (111) and (100) surfaces of lanthanum hexaboride. in NATO Science for Peace and Security Series B: Physics and Biophysics. NATO Science for Peace and Security Series B: Physics and Biophysics, pp. 181-193. https://doi.org/10.1007/978-90-481-9818-4-12

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abstract = "Reflection absorption infrared spectroscopy has been used to study the adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111)adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111) surfaces of lanthanum hexaboride. Exposure of the surface at temperatures of 95 K and above to O2 produces atomic oxygen on the surface and yields vibrational peaks in good agreement with those observed previously with the technique of high resolution electron energy loss spectroscopy (HREELS). As in the previous HREELS studies, the peaks observed in response to oxygen adsorption are assigned to vibrations of the B6 octahedra that gain intensity due to a decrease in electronic screening of surface dipoles. In the case of CO, molecular adsorption occurs at 95 K and gives rise to a variety of C-O stretch peaks, depending on adsorption site.Decaborane adsorbs molecularly at 95 K and gives rise to intense peaks in the B-H stretch region that evolve with annealing temperature into a single peak at 2571cm-1 due to an unidentified surface intermediate possessing BH bonds.",

keywords = "carbon monoxide, decaborane, lanthanum hexaboride, reflection absorption infrared spectroscopy, surface vibrational spectroscopy",

author = "Thomas Yorisaki and Aashani Tillekaratne and Yukihiro Moriya and Chuhei Oshima and Shigeki Otani and Michael Trenary",

year = "2011",

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AU - Yorisaki, Thomas

AU - Tillekaratne, Aashani

AU - Moriya, Yukihiro

AU - Oshima, Chuhei

AU - Otani, Shigeki

AU - Trenary, Michael

PY - 2011

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N2 - Reflection absorption infrared spectroscopy has been used to study the adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111)adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111) surfaces of lanthanum hexaboride. Exposure of the surface at temperatures of 95 K and above to O2 produces atomic oxygen on the surface and yields vibrational peaks in good agreement with those observed previously with the technique of high resolution electron energy loss spectroscopy (HREELS). As in the previous HREELS studies, the peaks observed in response to oxygen adsorption are assigned to vibrations of the B6 octahedra that gain intensity due to a decrease in electronic screening of surface dipoles. In the case of CO, molecular adsorption occurs at 95 K and gives rise to a variety of C-O stretch peaks, depending on adsorption site.Decaborane adsorbs molecularly at 95 K and gives rise to intense peaks in the B-H stretch region that evolve with annealing temperature into a single peak at 2571cm-1 due to an unidentified surface intermediate possessing BH bonds.

AB - Reflection absorption infrared spectroscopy has been used to study the adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111)adsorption of carbon monoxide, oxygen, and decaborane on the (100) and (111) surfaces of lanthanum hexaboride. Exposure of the surface at temperatures of 95 K and above to O2 produces atomic oxygen on the surface and yields vibrational peaks in good agreement with those observed previously with the technique of high resolution electron energy loss spectroscopy (HREELS). As in the previous HREELS studies, the peaks observed in response to oxygen adsorption are assigned to vibrations of the B6 octahedra that gain intensity due to a decrease in electronic screening of surface dipoles. In the case of CO, molecular adsorption occurs at 95 K and gives rise to a variety of C-O stretch peaks, depending on adsorption site.Decaborane adsorbs molecularly at 95 K and gives rise to intense peaks in the B-H stretch region that evolve with annealing temperature into a single peak at 2571cm-1 due to an unidentified surface intermediate possessing BH bonds.

KW - carbon monoxide

KW - decaborane

KW - lanthanum hexaboride

KW - reflection absorption infrared spectroscopy

KW - surface vibrational spectroscopy

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Vibrational spectroscopy of adsorbates on the (111) and (100) surfaces of lanthanum hexaboride

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