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W2982642384 endingPage "110580" @default.
W2982642384 startingPage "110580" @default.
W2982642384 abstract "Geometrical structure, stability of complexes of acetone/thioacetone with CO2 and/or H2O are thoroughly studied, and the role of intermolecular interactions are determined at the high level of theory. Obtained results propose that the minima of acetone⋯1,2CO2 are mainly stabilized by C⋯O tetrel bond, while in case of thioacetone, the structures are balanced by not only C⋯O tetrel bond, but also C⋯S one and hydrogen bonds. For the rest of investigated systems with the presence of H2O, OH⋯O/S hydrogen bond along with an additional contribution of other weak interactions determine on complex stabilization. The complexes of CO2 and/or H2O with acetone are more stable than those with thioacetone, and the larger positive cooperativity is considerably enhanced with an addition of H2O as compared to CO2 molecule in the acetone/thioacetone⋯CO2/H2O binary complexes. The electrostatic energy is found to be the main term overcoming dispersion and induction components contributing to strength of complexes." @default.
W2982642384 created "2019-11-08" @default.
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W2982642384 creator A5028160757 @default.
W2982642384 creator A5062184716 @default.
W2982642384 date "2020-02-01" @default.
W2982642384 modified "2023-09-26" @default.
W2982642384 title "General trends in structure, stability and role of interactions in the complexes of acetone and thioacetone with carbon dioxide and water" @default.
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W2982642384 doi "https://doi.org/10.1016/j.chemphys.2019.110580" @default.
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