Theoretical Investigation of the / Photoisomerization Pathway in 1-(2-Pyrrolyl)-2-(2-thienyl)ethylene.

Molecular-level understanding of photochemistry in simple vinylene-linked systems such as ethylene and stilbene has been a major area of research. However, the effect of replacing the two benzene rings by five-membered heterocyclic rings, thiophene and pyrrole, is yet to be reported. In the present theoretical study, our aim is to illustrate photoinduced processes in a vinylene-linked thiophene-pyrrole system. Computational studies are carried out at the RI-MP2/RI-ADC(2)/cc-pVTZ level to explore different isomerization pathways. Minimum-energy conical intersection (MECI) structures are categorized into two types: closed-ring and twisted-pyramidalized structures. Relaxation through the former MECIs is accessible only from the isomers. However, the latter MECIs are inaccessible due to high energy barriers along the linear interpolation in internal coordinate paths.