화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.124, No.9, 1902-1909, 2002
Quantitative evaluation of weak nonbonded Se center dot center dot center dot F interactions and their remarkable nature as orbital interactions
To evaluate weak intramolecular nonbonded Se...F interactions recently characterized for a series of o-selenobenzyl fluoride derivatives (Iwaoka et al., Chem. Lett. 1998, 969-970), the temperature dependence of the nuclear spin coupling between Se and F (J(Se...F)) was investigated for 2-(fluoromethyl)phenylselenenyl cyanate (1a) and bis[2-(fluoromethyl)phenyl] diselenide (le) in CD2Cl2 and CD3CN. A significant increase in the magnitude Of J(Se...F) was observed for both 1a and 1e upon lowering temperature, whereas the values Of J(Se...F) for the corresponding trifluoromethyl compounds slightly reduced or remained unchanged at low temperatures. Application of the rapid equilibrium model between two possible conformers revealed that conformer A with an intramolecular Se...F interaction is more stable in enthalpy (DeltaH by 1.23 kcal/mol for 1a (in CD2Cl2) and by 0.85 and 0.83 kcal/mol for le (in CD2Cl2 and CD3CN, respectively) than conformer B, which does not have close Se...F contact. The negligible solvent effects for 1e suggested marginal electrostatic nature of the Se...F interactions. Instead, importance of the n(F) --> sigma*(Se-x) orbital interaction was suggested by quantum chemical (QC) calculations and the natural bond orbital (NBO) analysis.