par Heather Lewandowski
JILA Faculty, University of Colorado-Boulder
Lundi 3 février, 11h – Amphithéâtre de l’ISMO
The aromatic molecule benzene is considered the essential building block for larger polycyclic aromatic hydrocarbons (PAHs) in space. Despite benzene’s importance in the formation of PAHs, the formation mechanisms of interstellar benzene are not well understood. A single ion-molecule reaction sequence is considered when modeling the formation of benzene in the interstellar medium, beginning with the protonation of acetylene. Although this process has been used to model the initial steps for formation of PAHs, it has not been experimentally measured. To explore this reaction mechanism, we have carried out the first experimental study of sequential ion-molecule reactions beginning with protonation of acetylene at single-collision conditions. Surprisingly, we find that the reaction sequence does not result in benzene and instead terminates at C6H5+, which is chemically inert toward both acetylene and hydrogen. This result disproves the previously proposed mechanism for interstellar benzene formation, critically altering our understanding of interstellar PAH formation.