Conformational equilibria in acrolein-CO 2 : the crucial contribution of n → π* interactions unveiled by rotational spectroscopy.
Hao WangJunhua ChenXiao TianChenxu WangJunlin LanXiaoqiang LiuZhenhua ZhangXiao-Dong WenQian GouPublished in: Physical chemistry chemical physics : PCCP (2024)
Using gas phase Fourier-transform microwave spectroscopy complemented by theoretical analysis, this study delivers a comprehensive depiction of the physical origin of the 'n → π* interaction' between CO 2 and acrolein, one of the most reactive aldehydes. Three distinct isomers of the acrolein-CO 2 complex, linked through a C⋯O tetrel bond (or n → π* interaction) and a C-H⋯O hydrogen bond, have been unambiguously identified in the pulsed jet. Relative intensity measurements allowed estimation on the population ratio of the three isomers to be T1/T2/C1 ≈ 25/5/1. Advanced theoretical analyses were employed to elucidate the intricacies of the noncovalent interactions within the examined complex. This study not only sheds light on the molecular underpinnings of n → π* interactions but also paves the way for future exploration in carbon dioxide capture and utilization, leveraging the fundamental principles uncovered in the study of acrolein-carbon dioxide interactions.