Hydrogen bonding between ethynyl aromates and Triethylamine (cas 121-44-8): IR spectroscopic and computational study

Add time:09/09/2019    Source:sciencedirect.com

Ethynylpyridines (EPs) and ethynylbenzene (EB) are multifunctional systems able to participate in hydrogen-bonded complexes as both donors and acceptors of the H-atom. Their structures and stabilities are mainly a function of the hydrogen-bonding properties of the partner in the complex and the surroundings in which the complexation occurs. In this paper, IR spectroscopy and quantum chemical calculations are employed to characterize hydrogen-bonded complexes of 2- and 3-EP and EB with triethylamine (TEA) in tetrachloroethene (C2Cl4) solution. The formation of CH⋯N hydrogen bonds is experimentally confirmed by the appearance of TEA concentration-dependent signals in the IR spectra of the EPs and EB. Along with the signals due to unassociated CH and CC oscillators (2-EP: 3308 cm−1 and 2120 cm−1; 3-EP: 3308 cm−1 and 2116 cm−1; EB: 3313 cm−1 and 2113 cm−1) weak, red-shifted signals arise at ~3215 ± 5 cm−1 and ~2105 ± 5 cm−1 which are assigned to the stretching vibrations of hydrogen-bonded CH⋯ and CC⋯ oscillators, respectively. This result is at variance with those of previous investigations of EB and TEA in the gas phase. In the 2-EP⋯TEA complex these bands remain at the same position with increasing TEA concentration. However, in the 3-EP⋯TEA and EB⋯TEA complexes the CH⋯ stretching band demonstrates a slightly reduced red-shift as the TEA concentration increases, whereas the CC⋯ stretching band absorbs at the same wavenumber in the investigated TEA concentration range. The results of B3LYP-D3 calculations indicate that complexes with more or less linear CH⋯N intermolecular hydrogen bonds are more stable than other, dispersion-driven complexes. Complexes with the Cs symmetrical TEA conformer are predicted to have larger binding energy than those formed with the C3 and C1 symmetrical conformers. The predicted IR spectral shifts are slightly different for complexes with the three different TEA conformers. Association constants of hydrogen-bonded complexes at 26 °C are estimated to be ~0.1 mol−1 dm3.

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