Structural and spectroscopic properties of the second generation phosphorus–viologen “molecular asterisk”

[Display omitted] •The FTIR and FT Raman spectra of the phosphorus–viologen molecular asterisk G2 were studied.•The structural optimization and normal mode analysis were performed for G2.•It was found that G2 has a kind of “egg timer” structure. The FTIR and FT Raman spectra of the second generation...

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Published in:Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy Molecular and biomolecular spectroscopy, 2013-11, Vol.115, p.183-190
Main Authors: Furer, V.L., Vandukov, A.E., Katir, N., Majoral, J.P., El Kadib, A., Caminade, A.M., Bousmina, M., Kovalenko, V.I.
Format: Article
Language:English
Subjects:
Chemical Sciences
Coordination chemistry
Infrared spectra
Phosphorus–viologen asterisks
Raman spectra
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Summary:[Display omitted] •The FTIR and FT Raman spectra of the phosphorus–viologen molecular asterisk G2 were studied.•The structural optimization and normal mode analysis were performed for G2.•It was found that G2 has a kind of “egg timer” structure. The FTIR and FT Raman spectra of the second generation phosphorus–viologen “molecular asterisk” G2 built from cyclotriphosphazene core with 12 viologen units and 6 terminal phosphonate groups have been recorded and analyzed. The experimental X-ray data of 1,1-bis(4-formylbenzyl)-4,4′-bipyridinium bis(hexaflurophosphate) was used in molecular modeling studies. The optimization of isolated 1,1-bis(4-formylbenzyl)-4,4′-bipyridinium (BFBP) molecule without counter ions PF6- does not lead to significant changes of dihedral angles, thus the molecular conformation does not depend on interactions with the counter ions. The structural optimization and normal mode analysis were performed for G2 on the basis of the density functional theory (DFT). The calculated geometrical parameters and harmonic vibrational frequencies are predicted in a good agreement with the experimental data. It was found that G2 has a kind of “egg timer” structure with planar OC6H4CHNN(CH3) fragments and slightly non-planar cyclotriphosphazene core. The experimental IR and Raman spectra of G2 were interpreted by means of potential energy distribution.
ISSN:1386-1425
1873-3557
DOI:10.1016/j.saa.2013.06.026