Abstract

--- - In this study, we employed ab initio methods to investigate the 4 pi-photocyclization process of substituted alpha-tropones. Our findings suggest that the initial stages of this reaction occur from low-energy excited states such as S2 and S3, as the barriers in higher-energy excited states are prohibitively high. Additionally, we observed that the presence of acid catalysts or substitution of tropones with electron-donating groups reduces the energy barriers. Regarding the formation of bicyclo[3.2.0]hepta-3,6-dien-2-one derivatives, both T1/S0 and S1/S0 crossings were identified as plausible pathways for this deactivation process. Specifically, electron-donating groups on the tropones promote degeneracy between S1 and S0 states during the return to the ground state. Moreover, T1/S0 crossing systems were consistently observed across all investigated scenarios. - We used ab initio methods to study the 4 pi-photocyclization of alpha-tropones. Acid catalysts and electron-donating groups lower energy barriers, promoting the formation of bicyclo[3.2.0]hepta-3,6-dien-2-one derivatives via T1/S0 and S1/S0 crossings.