Isolated Se6 rings in the voids of a weakly interacting, electroneutral, and crystalline SiO2 matrix: Combined experimental and theoretical study

Gernot Wirnsberger; Harald P. Fritzer; Robert Zink; Alois Popitsch; Bernd Pillep; Peter Behrens

Details

Original language	English
Pages (from-to)	5797-5801
Number of pages	5
Journal	Journal of Physical Chemistry B
Volume	103
Issue number	28
Publication status	Published - 15 Jul 1999

Abstract

For the first time a selenium species has been successfully trapped in the voids of an electroneutral SiO₂ modification, namely, in the porosil decadodecasil 3R (DDR). Raman spectroscopy in combination with theoretical ab initio calculations at the SCF and MP2 levels of theory have been used to assign the observed spectral bands exclusively to Se₆ rings with D_3c symmetry. The A_1g(r) and E_g(r) mode frequencies of the matrix-isolated Se₆ rings are considerably higher than those of bulk Se₆, suggesting that intermolecular correlations are lost for the perfectly isolated molecules in the microporous host matrix. By an EXAFS analysis of Se K-spectra, Se-Se bond lengths of 2.34 Å and next-nearest Se⋯Se distances of 3.61 Å are obtained, in very good agreement with the theoretical ab initio studies. EXAFS analysis in addition reveals that the interaction between the SiO₂ framework and the embedded Se₆ rings are weak, resulting in a novel host - guest compound with nearly unperturbed Se₆ guest molecules. The crystalline electroneutral host thus acts similarly to a noble gas matrix at low temperatures.

ASJC Scopus subject areas

Chemistry(all)
Physical and Theoretical Chemistry
Materials Science(all)
Surfaces, Coatings and Films
Materials Science(all)
Materials Chemistry

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Isolated Se₆ rings in the voids of a weakly interacting, electroneutral, and crystalline SiO₂ matrix: Combined experimental and theoretical study. / Wirnsberger, Gernot; Fritzer, Harald P.; Zink, Robert et al.
In: Journal of Physical Chemistry B, Vol. 103, No. 28, 15.07.1999, p. 5797-5801.

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

Wirnsberger, G, Fritzer, HP, Zink, R, Popitsch, A, Pillep, B & Behrens, P 1999, 'Isolated Se₆ rings in the voids of a weakly interacting, electroneutral, and crystalline SiO₂ matrix: Combined experimental and theoretical study', Journal of Physical Chemistry B, vol. 103, no. 28, pp. 5797-5801.

Wirnsberger, G., Fritzer, H. P., Zink, R., Popitsch, A., Pillep, B., & Behrens, P. (1999). Isolated Se₆ rings in the voids of a weakly interacting, electroneutral, and crystalline SiO₂ matrix: Combined experimental and theoretical study. Journal of Physical Chemistry B, 103(28), 5797-5801.

Wirnsberger G, Fritzer HP, Zink R, Popitsch A, Pillep B, Behrens P. Isolated Se₆ rings in the voids of a weakly interacting, electroneutral, and crystalline SiO₂ matrix: Combined experimental and theoretical study. Journal of Physical Chemistry B. 1999 Jul 15;103(28):5797-5801.

Wirnsberger, Gernot ; Fritzer, Harald P. ; Zink, Robert et al. / Isolated Se₆ rings in the voids of a weakly interacting, electroneutral, and crystalline SiO₂ matrix : Combined experimental and theoretical study. In: Journal of Physical Chemistry B. 1999 ; Vol. 103, No. 28. pp. 5797-5801.

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title = "Isolated Se6 rings in the voids of a weakly interacting, electroneutral, and crystalline SiO2 matrix: Combined experimental and theoretical study",

abstract = "For the first time a selenium species has been successfully trapped in the voids of an electroneutral SiO2 modification, namely, in the porosil decadodecasil 3R (DDR). Raman spectroscopy in combination with theoretical ab initio calculations at the SCF and MP2 levels of theory have been used to assign the observed spectral bands exclusively to Se6 rings with D3c symmetry. The A1g(r) and Eg(r) mode frequencies of the matrix-isolated Se6 rings are considerably higher than those of bulk Se6, suggesting that intermolecular correlations are lost for the perfectly isolated molecules in the microporous host matrix. By an EXAFS analysis of Se K-spectra, Se-Se bond lengths of 2.34 {\AA} and next-nearest Se⋯Se distances of 3.61 {\AA} are obtained, in very good agreement with the theoretical ab initio studies. EXAFS analysis in addition reveals that the interaction between the SiO2 framework and the embedded Se6 rings are weak, resulting in a novel host - guest compound with nearly unperturbed Se6 guest molecules. The crystalline electroneutral host thus acts similarly to a noble gas matrix at low temperatures.",

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T1 - Isolated Se6 rings in the voids of a weakly interacting, electroneutral, and crystalline SiO2 matrix

T2 - Combined experimental and theoretical study

AU - Wirnsberger, Gernot

AU - Fritzer, Harald P.

AU - Zink, Robert

AU - Popitsch, Alois

AU - Pillep, Bernd

AU - Behrens, Peter

PY - 1999/7/15

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N2 - For the first time a selenium species has been successfully trapped in the voids of an electroneutral SiO2 modification, namely, in the porosil decadodecasil 3R (DDR). Raman spectroscopy in combination with theoretical ab initio calculations at the SCF and MP2 levels of theory have been used to assign the observed spectral bands exclusively to Se6 rings with D3c symmetry. The A1g(r) and Eg(r) mode frequencies of the matrix-isolated Se6 rings are considerably higher than those of bulk Se6, suggesting that intermolecular correlations are lost for the perfectly isolated molecules in the microporous host matrix. By an EXAFS analysis of Se K-spectra, Se-Se bond lengths of 2.34 Å and next-nearest Se⋯Se distances of 3.61 Å are obtained, in very good agreement with the theoretical ab initio studies. EXAFS analysis in addition reveals that the interaction between the SiO2 framework and the embedded Se6 rings are weak, resulting in a novel host - guest compound with nearly unperturbed Se6 guest molecules. The crystalline electroneutral host thus acts similarly to a noble gas matrix at low temperatures.

AB - For the first time a selenium species has been successfully trapped in the voids of an electroneutral SiO2 modification, namely, in the porosil decadodecasil 3R (DDR). Raman spectroscopy in combination with theoretical ab initio calculations at the SCF and MP2 levels of theory have been used to assign the observed spectral bands exclusively to Se6 rings with D3c symmetry. The A1g(r) and Eg(r) mode frequencies of the matrix-isolated Se6 rings are considerably higher than those of bulk Se6, suggesting that intermolecular correlations are lost for the perfectly isolated molecules in the microporous host matrix. By an EXAFS analysis of Se K-spectra, Se-Se bond lengths of 2.34 Å and next-nearest Se⋯Se distances of 3.61 Å are obtained, in very good agreement with the theoretical ab initio studies. EXAFS analysis in addition reveals that the interaction between the SiO2 framework and the embedded Se6 rings are weak, resulting in a novel host - guest compound with nearly unperturbed Se6 guest molecules. The crystalline electroneutral host thus acts similarly to a noble gas matrix at low temperatures.

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Research@Leibniz University

Isolated Se₆ rings in the voids of a weakly interacting, electroneutral, and crystalline SiO₂ matrix: Combined experimental and theoretical study

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