Ability of Lewis Acids with Shallow σ-Holes to Engage in Chalcogen Bonds in Different Environments |
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Authors: | Rafa Wysokiski Wiktor Zierkiewicz Mariusz Michalczyk Steve Scheiner |
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Institution: | 1.Faculty of Chemistry, Wrocław University of Science and Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland;2.Department of Chemistry and Biochemistry, Utah State University, Logan, UT 84322-0300, USA |
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Abstract: | Molecules of the type XYT = Ch (T = C, Si, Ge; Ch = S, Se; X,Y = H, CH3, Cl, Br, I) contain a σ-hole along the T = Ch bond extension. This hole can engage with the N lone pair of NCH and NCCH3 so as to form a chalcogen bond. In the case of T = C, these bonds are rather weak, less than 3 kcal/mol, and are slightly weakened in acetone or water. They owe their stability to attractive electrostatic energy, supplemented by dispersion, and a much smaller polarization term. Immersion in solvent reverses the electrostatic interaction to repulsive, while amplifying the polarization energy. The σ-holes are smaller for T = Si and Ge, even negative in many cases. These Lewis acids can nonetheless engage in a weak chalcogen bond. This bond owes its stability to dispersion in the gas phase, but it is polarization that dominates in solution. |
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Keywords: | molecular electrostatic potential solvent effects AIM LMOEDA |
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