Study of spectral properties of bis(1,10-phenanthroline) silicon hexacoordinated complexes by density functional theory

Applying ab initio method the structures and UV‐vis spectra of silicon hexacoordinated compound [Si(phen)2(OMe)2]I2 and it's nitrate [Si(phen)2(OMe)2](NO3)2 were calculated. On the ground of comparison of theoretical and experimental data (1H NMR and electronic absorption spectra) it was shown...

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Bibliographic Details
Published in:International journal of quantum chemistry 2008, Vol.108 (14), p.2641-2647
Main Authors: Irgibaeva, Irina, Aldongarov, Anuar, Barashkov, Nikolay, Schmedake, Thomas
Format: Article
Language:English
Subjects:
charge transfer band
hexacoordinate silicon complex
time-dependent DFT (TDDFT) method
UV-vis spectra
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Summary:Applying ab initio method the structures and UV‐vis spectra of silicon hexacoordinated compound [Si(phen)2(OMe)2]I2 and it's nitrate [Si(phen)2(OMe)2](NO3)2 were calculated. On the ground of comparison of theoretical and experimental data (1H NMR and electronic absorption spectra) it was shown that the theoretical method B3LYP/LanL2DZ we have used describes bis(1,10‐phenanthroline) silicon complexes reasonably well. On the basis of TDDFT calculations at B3LYP/LanL2DZ level it is predicted that [Si(phen)2(OMe)2]I2 compound has charge transfer band in UV‐vis spectrum at 557 nm which is associated with electron transfer from I− to phen ligand while [Si(phen)2(OMe)2](NO3)2 doesn't have one. The absence of this band in the observed spectrum of the [Si(phen)2(OMe)2]I2 complex methanol solution (10−5 M) is explained by the dissociation of the complex into ions [Si(phen)2(OMe)2]2+ and 2I−. We assume that this charge transfer band corresponds to peak at 400 nm in UV‐vis spectrum of [Si(phen)2(OMe)2]I2 thin film. The missing of such bands in UV‐vis spectrum of nitrate [Si(phen)2(OMe)2](NO3)2 film is explained by n → p* nature of these transitions. Significant error in prediction of charge transfer band energy is due to failure of TDDFT method to yield underestimated charge transfer electronic energies. © 2008 Wiley Periodicals, Inc. Int J Quantum Chem, 2008
ISSN:0020-7608
1097-461X
DOI:10.1002/qua.21734