On the mechanism of the cis-trans photoisomerization in the lowest electronic states of Azobenzene

A theoretical study of the lowest excited states of azobenzene: the role of torsional coordinate in the cis-trans photoisomerization

Electrostatic control of the photoisomerization efficiency and optical properties in visual pigments: on the role of counterion quenching.

Hybrid QM(CASPT2//CASSCF/6-31G*)/MM(Amber) computations have been used to map the photoisomerization path of the retinal chromophore in Rhodopsin and explore the reasons behind the photoactivity efficiency and spectral control in the visual pigments. It is shown that while the electrostatic environment plays a central role in properly tuning the optical properties of the chromophore, it is also critical in biasing the ultrafast photochemical event: it controls the slope of the photoisomerization channel as well as the accessibility of the S(1)/S(0) crossing space triggering the ultrafast decay. The roles of the E113 counterion, the E181 residue, and the other amino acids of the protein pock…