Isomerization dynamics of dicationic CS2 and OCS driven by electron-impact
Wenguang Wu, Enliang Wang, Tuo Liu, Xingyu Guo, Chunkai Xu, Xu Shan, Xiangjun ChenThe isomerization of dications of CS2 and OCS is investigated using combined experimental and theoretical methods. The dications were generated by a high-energy electron pulse and the fragment ions were detected by a momentum imaging time-of-flight spectrometer. Bond rearrangement reactions leading to C+ + S2+ and C+ + OS+ were identified through coincident measurements. Theoretically, potential energy surfaces along the reaction paths were calculated using high-level quantum chemistry methods. For CS2+, isomerization is initiated by ionization excitation followed by a decay process. In contrast, the isomerization channel for OCS2+ can open on the ground dicationic state through vibrational excitation. The predicted kinetic energy releases agree with the experimental data. This study demonstrates that, as a common process in dissociative ionization, isomerization mechanism may be influenced by molecular symmetry.