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    Title: A DFT study on structures, frontier molecular orbitals and UV-vis spectra of [M(L)(N-3)(C7H5N)(PPh3)] (M = Ru and Fe;L = Tp and Cp)
    Authors: Wang, Tsang-Hsiu
    Hsiao, Ching-Hsiang
    Chen, Shih-Hsiung
    Hsiao, Ci-Min
    Chen, Li-Yun
    Li, Gheng-Min
    Hsueh, Bu-Cheng
    Contributors: 環境工程與科學系
    產業安全衛生與防災研究所
    Keywords: DFT
    Tp
    Cp
    UV
    DSSC
    Date: 2015-08
    Issue Date: 2016-04-19 19:05:06 (UTC+8)
    Publisher: Elsevier Science Sa
    Abstract: In order to investigate whether Ru can be replaced by inexpensive Fe in photo-sensitizers for dyesensitized solar cells (DSSCs), the differences in spin states, structures, frontier molecular orbitals and UVevis spectroscopic properties of Ru-and Fe-based complexes are investigated by density functional theory (DFT) and time-dependent density functional theory (TD-DFT). These Ru-and Fe-based complexes are expected to be in singlet state (low-spin) because of low related energy. The calculated structural parameters for the [RuTp]-based complex are in very good agreement with experimental values; moreover, the geometries of the [RuCp]-, [FeTp]- and [FeCp]-based complexes have been predicted as well. The metal-ligand bond distances for the Fe-based complexes are predicted to be slightly shorter than these of the Ru-based complexes due to the smaller spatial extent of 3d wave functions of the Fe atom. These Ru-and Fe-based complexes display the HOMO with metal d-orbital and pi(N-3) orbital characters and the LUMO with metal d-orbital and pi*(C7H5N) orbital characters. The HOMO-LUMO energy gap (Delta EL-H) may be reduced by a low electronegativity of central metal atom, such as Fe. A low electronegativity metal atom (such as Fe) as well as an electron-rich ligand (such as Cp) may result in red shift for UV-vis spectra. Besides, the UV-vis absorption-enhanced by solvent, such as CH3OH, has been predicted. Our results show that Ru can be replaced by inexpensive Fe in photo-sensitizers for DSSCs. In addition, these Ru-and Fe-based complexes are good candidates for photo-sensitizers due to their absorption intensities and rich absorption bands in visible region
    Relation: Journal of Organometallic Chemistry, v.791, pp.72-81
    Appears in Collections:[Dept. of Occupational Safety] Periodical Articles
    [Dept. of Environmental Engineering and Science (including master's program)] Periodical Articles

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