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Effect of resonance dipole-dipole interaction on the infrared spectra of adsorbed CF4. Experimental investigation and theoretical modeling. / Dobrotvorskaia, Anna N.; Gatilova, Alevtina V.; Murzin, Petr D.; Rudakova, Aida V.; Shchepkin, Dmitriy N.; Tsyganenko, Alexey A.

в: Journal of Photochemistry and Photobiology A: Chemistry, Том 354, 01.03.2018, стр. 4-10.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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@article{2b211654a68e47f883cfee6c2d118b57,
title = "Effect of resonance dipole-dipole interaction on the infrared spectra of adsorbed CF4. Experimental investigation and theoretical modeling.",
abstract = "Adsorption of CF4 on ZnO has been studied by means of FTIR spectroscopy at 55-300K. The contour of the band of the ν 3 vibration in the spectra obtained is shown to depend crucially on surface coverage, due to strong resonance dipole-dipole interaction in the layer of adsorbed molecules. At high surface coverage the band is split into two components at 1320 and 1245cm-1, about 75cm-1 apart. The shape of the low frequency component is complicated by an {"}Evans hole{"} at 1258cm-1. At lowest coverage only a weak band of ν 3 vibration was seen at 1270-1272cm-1; about 10cm-1 below the corresponding wavenumber for gaseous CF4. Preliminary adsorption of CO does not affect significantly the spectrum of adsorbed CF4, leading only to slight decrease of the distance between the two components. Experimentally observed band contours were compared with those calculated theoretically using a model developed earlier for the spectra of interacting molecules in liquid phase, or dissolved in liquefied noble gases, and updated for the case of 2D systems. The calculated spectra reproduce well the splitting of the ν 3 band for a monolayer, as well as the coverage and temperature dependence of the IR spectra.",
keywords = "Adsorption, CF, Dipole-dipole interaction, ZnO, CF4, Dipole–dipole interaction, LATERAL INTERACTIONS, BASICITY, ADSORPTION, CO, MOLECULES, OXIDE SURFACES, ABSORPTION, CATALYSTS, MANIFESTATIONS",
author = "Dobrotvorskaia, {Anna N.} and Gatilova, {Alevtina V.} and Murzin, {Petr D.} and Rudakova, {Aida V.} and Shchepkin, {Dmitriy N.} and Tsyganenko, {Alexey A.}",
year = "2018",
month = mar,
day = "1",
doi = "10.1016/j.jphotochem.2017.09.066",
language = "English",
volume = "354",
pages = "4--10",
journal = "Journal of Photochemistry and Photobiology A: Chemistry",
issn = "1010-6030",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Effect of resonance dipole-dipole interaction on the infrared spectra of adsorbed CF4. Experimental investigation and theoretical modeling.

AU - Dobrotvorskaia, Anna N.

AU - Gatilova, Alevtina V.

AU - Murzin, Petr D.

AU - Rudakova, Aida V.

AU - Shchepkin, Dmitriy N.

AU - Tsyganenko, Alexey A.

PY - 2018/3/1

Y1 - 2018/3/1

N2 - Adsorption of CF4 on ZnO has been studied by means of FTIR spectroscopy at 55-300K. The contour of the band of the ν 3 vibration in the spectra obtained is shown to depend crucially on surface coverage, due to strong resonance dipole-dipole interaction in the layer of adsorbed molecules. At high surface coverage the band is split into two components at 1320 and 1245cm-1, about 75cm-1 apart. The shape of the low frequency component is complicated by an "Evans hole" at 1258cm-1. At lowest coverage only a weak band of ν 3 vibration was seen at 1270-1272cm-1; about 10cm-1 below the corresponding wavenumber for gaseous CF4. Preliminary adsorption of CO does not affect significantly the spectrum of adsorbed CF4, leading only to slight decrease of the distance between the two components. Experimentally observed band contours were compared with those calculated theoretically using a model developed earlier for the spectra of interacting molecules in liquid phase, or dissolved in liquefied noble gases, and updated for the case of 2D systems. The calculated spectra reproduce well the splitting of the ν 3 band for a monolayer, as well as the coverage and temperature dependence of the IR spectra.

AB - Adsorption of CF4 on ZnO has been studied by means of FTIR spectroscopy at 55-300K. The contour of the band of the ν 3 vibration in the spectra obtained is shown to depend crucially on surface coverage, due to strong resonance dipole-dipole interaction in the layer of adsorbed molecules. At high surface coverage the band is split into two components at 1320 and 1245cm-1, about 75cm-1 apart. The shape of the low frequency component is complicated by an "Evans hole" at 1258cm-1. At lowest coverage only a weak band of ν 3 vibration was seen at 1270-1272cm-1; about 10cm-1 below the corresponding wavenumber for gaseous CF4. Preliminary adsorption of CO does not affect significantly the spectrum of adsorbed CF4, leading only to slight decrease of the distance between the two components. Experimentally observed band contours were compared with those calculated theoretically using a model developed earlier for the spectra of interacting molecules in liquid phase, or dissolved in liquefied noble gases, and updated for the case of 2D systems. The calculated spectra reproduce well the splitting of the ν 3 band for a monolayer, as well as the coverage and temperature dependence of the IR spectra.

KW - Adsorption

KW - CF

KW - Dipole-dipole interaction

KW - ZnO

KW - CF4

KW - Dipole–dipole interaction

KW - LATERAL INTERACTIONS

KW - BASICITY

KW - ADSORPTION

KW - CO

KW - MOLECULES

KW - OXIDE SURFACES

KW - ABSORPTION

KW - CATALYSTS

KW - MANIFESTATIONS

UR - http://www.scopus.com/inward/record.url?scp=85033689602&partnerID=8YFLogxK

UR - http://www.mendeley.com/research/effect-resonance-dipoledipole-interaction-infrared-spectra-adsorbed-cf4-experimental-investigation-t

U2 - 10.1016/j.jphotochem.2017.09.066

DO - 10.1016/j.jphotochem.2017.09.066

M3 - Article

AN - SCOPUS:85033689602

VL - 354

SP - 4

EP - 10

JO - Journal of Photochemistry and Photobiology A: Chemistry

JF - Journal of Photochemistry and Photobiology A: Chemistry

SN - 1010-6030

ER -

ID: 8915592