Adsorption reaction of polar organic molecules on Sin + cluster ions

Wakana Nakagawara; Hironori Tsunoyama; Ari Furuya; Fuminori Misaizu; Koichi Ohno

doi:10.1142/S0217979205031225

Adsorption reaction of polar organic molecules on Si_n ⁺ cluster ions

Wakana Nakagawara, Hironori Tsunoyama, Ari Furuya, Fuminori Misaizu, Koichi Ohno

Research output: Contribution to journal › Article › peer-review

Abstract

We have examined chemical reactions of small silicon cluster ions Si _n⁺ for n = 7-16 with polar organic molecules M (M = CH₃CN, CD₃OD, C₂H₅CN, and C ₂H₅OH). The intensities of the adsorption products Si _nM_m⁺ for m = 1 and 2 were investigated as a function of n. We found for all polar molecules that the relative intensity of Si_nM⁺ to the unreacted Si_n⁺ is smaller for n = 11, 13, and 14, that is, the adsorption reactivity is smaller for these n than others. It was also commonly observed that the SigM ₂⁺ ion are more intense than neighboring n. We discussed the relationship of the reactivity with the geometrical structures and the stabilities of the bare Si_n⁺ ions and adsorbed Si _n(CH₃CN)_m⁺ ions, from theoretical calculations based on density functional theory.

Original language	English
Pages (from-to)	2502-2507
Number of pages	6
Journal	International Journal of Modern Physics B
Volume	19
Issue number	15-17
DOIs	https://doi.org/10.1142/S0217979205031225
Publication status	Published - 2005 Jul 10
Externally published	Yes

Keywords

Adsorption reaction
Cluster ion
Silicon

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Condensed Matter Physics

Access to Document

10.1142/S0217979205031225

Cite this

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title = "Adsorption reaction of polar organic molecules on Sin + cluster ions",

abstract = "We have examined chemical reactions of small silicon cluster ions Si n+ for n = 7-16 with polar organic molecules M (M = CH3CN, CD3OD, C2H5CN, and C 2H5OH). The intensities of the adsorption products Si nMm+ for m = 1 and 2 were investigated as a function of n. We found for all polar molecules that the relative intensity of SinM+ to the unreacted Sin+ is smaller for n = 11, 13, and 14, that is, the adsorption reactivity is smaller for these n than others. It was also commonly observed that the SigM 2+ ion are more intense than neighboring n. We discussed the relationship of the reactivity with the geometrical structures and the stabilities of the bare Sin+ ions and adsorbed Si n(CH3CN)m+ ions, from theoretical calculations based on density functional theory.",

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author = "Wakana Nakagawara and Hironori Tsunoyama and Ari Furuya and Fuminori Misaizu and Koichi Ohno",

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T1 - Adsorption reaction of polar organic molecules on Sin + cluster ions

AU - Nakagawara, Wakana

AU - Tsunoyama, Hironori

AU - Furuya, Ari

AU - Misaizu, Fuminori

AU - Ohno, Koichi

PY - 2005/7/10

Y1 - 2005/7/10

N2 - We have examined chemical reactions of small silicon cluster ions Si n+ for n = 7-16 with polar organic molecules M (M = CH3CN, CD3OD, C2H5CN, and C 2H5OH). The intensities of the adsorption products Si nMm+ for m = 1 and 2 were investigated as a function of n. We found for all polar molecules that the relative intensity of SinM+ to the unreacted Sin+ is smaller for n = 11, 13, and 14, that is, the adsorption reactivity is smaller for these n than others. It was also commonly observed that the SigM 2+ ion are more intense than neighboring n. We discussed the relationship of the reactivity with the geometrical structures and the stabilities of the bare Sin+ ions and adsorbed Si n(CH3CN)m+ ions, from theoretical calculations based on density functional theory.

AB - We have examined chemical reactions of small silicon cluster ions Si n+ for n = 7-16 with polar organic molecules M (M = CH3CN, CD3OD, C2H5CN, and C 2H5OH). The intensities of the adsorption products Si nMm+ for m = 1 and 2 were investigated as a function of n. We found for all polar molecules that the relative intensity of SinM+ to the unreacted Sin+ is smaller for n = 11, 13, and 14, that is, the adsorption reactivity is smaller for these n than others. It was also commonly observed that the SigM 2+ ion are more intense than neighboring n. We discussed the relationship of the reactivity with the geometrical structures and the stabilities of the bare Sin+ ions and adsorbed Si n(CH3CN)m+ ions, from theoretical calculations based on density functional theory.

KW - Adsorption reaction

KW - Cluster ion

KW - Silicon

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