Ab initio MO study on the S1 ← S0 transitions of polychlorinated dibenzo-p-dioxins

Shoji Hirokawa, Tomoko Imasaka, Yoshihiro Urakami

研究成果: ジャーナルへの寄稿記事

14 引用 (Scopus)

抄録

The optimized geometries for the S0 and S1 states of dibenzo-p-dioxin and eight polychlorinated dibenzo-p-dioxins (PCDDs) were obtained by using HF, B3LYP, or CIS methods. Calculated results were in good agreement with available X-ray crystallographic structures. The effects of substituent chlorine atoms and electronic excitation on the molecular geometries are discussed. The correlation energy was estimated by a comparison of (0-0) transition energies, calculated using HF and CIS methods, with observed energies. It was confirmed that the correlation energy of PCDD was primarily caused by the electrons belonging to the benzene and central rings, and that substituted chlorine atoms made a relatively small contribution to the correlation energy. The correction for the correlation energy demonstrated that it was possible to make (0-0) transition energies agree with experimental energies within an error of 2%. Electronic spectra were also studied on the basis of INDO/S calculations.

元の言語英語
ページ(範囲)229-237
ページ数9
ジャーナルJournal of Molecular Structure: THEOCHEM
622
発行部数3
DOI
出版物ステータス出版済み - 3 19 2003

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Chlorine
Atoms
Geometry
Benzene
X-Rays
Electrons
X rays
Commonwealth of Independent States
energy
chlorine
Polychlorinated Dibenzodioxins
dibenzo(1,4)dioxin
geometry
electronic spectra
atoms
benzene
rings
electronics
excitation

All Science Journal Classification (ASJC) codes

  • Biochemistry
  • Condensed Matter Physics
  • Physical and Theoretical Chemistry

これを引用

Ab initio MO study on the S1 ← S0 transitions of polychlorinated dibenzo-p-dioxins. / Hirokawa, Shoji; Imasaka, Tomoko; Urakami, Yoshihiro.

:: Journal of Molecular Structure: THEOCHEM, 巻 622, 番号 3, 19.03.2003, p. 229-237.

研究成果: ジャーナルへの寄稿記事

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abstract = "The optimized geometries for the S0 and S1 states of dibenzo-p-dioxin and eight polychlorinated dibenzo-p-dioxins (PCDDs) were obtained by using HF, B3LYP, or CIS methods. Calculated results were in good agreement with available X-ray crystallographic structures. The effects of substituent chlorine atoms and electronic excitation on the molecular geometries are discussed. The correlation energy was estimated by a comparison of (0-0) transition energies, calculated using HF and CIS methods, with observed energies. It was confirmed that the correlation energy of PCDD was primarily caused by the electrons belonging to the benzene and central rings, and that substituted chlorine atoms made a relatively small contribution to the correlation energy. The correction for the correlation energy demonstrated that it was possible to make (0-0) transition energies agree with experimental energies within an error of 2{\%}. Electronic spectra were also studied on the basis of INDO/S calculations.",
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N2 - The optimized geometries for the S0 and S1 states of dibenzo-p-dioxin and eight polychlorinated dibenzo-p-dioxins (PCDDs) were obtained by using HF, B3LYP, or CIS methods. Calculated results were in good agreement with available X-ray crystallographic structures. The effects of substituent chlorine atoms and electronic excitation on the molecular geometries are discussed. The correlation energy was estimated by a comparison of (0-0) transition energies, calculated using HF and CIS methods, with observed energies. It was confirmed that the correlation energy of PCDD was primarily caused by the electrons belonging to the benzene and central rings, and that substituted chlorine atoms made a relatively small contribution to the correlation energy. The correction for the correlation energy demonstrated that it was possible to make (0-0) transition energies agree with experimental energies within an error of 2%. Electronic spectra were also studied on the basis of INDO/S calculations.

AB - The optimized geometries for the S0 and S1 states of dibenzo-p-dioxin and eight polychlorinated dibenzo-p-dioxins (PCDDs) were obtained by using HF, B3LYP, or CIS methods. Calculated results were in good agreement with available X-ray crystallographic structures. The effects of substituent chlorine atoms and electronic excitation on the molecular geometries are discussed. The correlation energy was estimated by a comparison of (0-0) transition energies, calculated using HF and CIS methods, with observed energies. It was confirmed that the correlation energy of PCDD was primarily caused by the electrons belonging to the benzene and central rings, and that substituted chlorine atoms made a relatively small contribution to the correlation energy. The correction for the correlation energy demonstrated that it was possible to make (0-0) transition energies agree with experimental energies within an error of 2%. Electronic spectra were also studied on the basis of INDO/S calculations.

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