Deciphering the Role of Vinylene Carbonate in Shaping CO<sub>2</sub> Cluster Growth and Stability via Wavelet-Enhanced Microwave Spectroscopy
Chenxu Wang, Junlin Lan, Meiyue Li, Hao Wang, Fan Xie, Xiao Tian, Tianyue Gao, Junhua Chen, Zhenhong Yu, Melanie Schnell, Jens‐Uwe Grabow, Qian Gou
Abstract
This study presents the first integration of wavelet denoising with resonator-enhanced microwave spectroscopy to explore the formation and characteristics of gas-phase heterogeneous vinylene carbonate-(CO 2 ) 1–5 clusters. Through this innovative approach, faint spectral lines were detected with efficiency, enhancing our understanding of complex interaction patterns that govern the growth and stability of these molecular clusters. It was found that CO 2 aggregates preferentially around the vinylene carbonate molecule through C···O tetrel bonds at the carbonyl and ether groups, altering the typical self-aggregation topology of free CO 2 clusters. This leads to more symmetrical growth around the vinylene carbonate monomer. Our findings provide insights into the solvation mechanisms of compounds in supercritical CO 2 thereby advancing the understanding of subnanoscale CO 2 aggregation patterns.