Litcius/Paper detail

Frenkel exciton photodynamics of self-assembled monolayers of azobiphenyls

Eduarda Sangiogo Gil, Maurizio Persico, Giovanni Granucci

2022The Journal of Chemical Physics20 citationsDOI

Abstract

We performed computational simulations of the photodynamics of a self-assembled monolayer (SAM) of an azobenzene derivative (azobiphenyl, ABPT) on a gold surface. An excitonic approach was adopted in a semiempirical framework, which allowed us to consider explicitly the electronic degrees of freedom of 12 azobenzene chromophores. The surface hopping scheme was used for nonadiabatic molecular dynamics simulations. According to our results for an all trans-ABPT SAM, the excitation energy transfer between different chromophores, very fast in the ππ∗ manifold, does not occur between nπ∗ states. As a consequence, the excitation transfer does not play an important role in the quenching of the azobenzene photoisomerization in the SAM (experimentally observed and reproduced by our calculations) which, instead, has to be attributed to steric effects.

Topics & Concepts

AzobenzeneChromophoreSurface hoppingPhotoisomerizationExcitonExcitationMonolayerChemical physicsDegrees of freedom (physics and chemistry)Quenching (fluorescence)Materials sciencePhotochemistrySteric effectsMolecular physicsChemistryMolecular dynamicsComputational chemistryNanotechnologyCondensed matter physicsPhysicsFluorescencePolymerOpticsQuantum mechanicsIsomerizationStereochemistryComposite materialBiochemistryCatalysisPhotochromic and Fluorescence ChemistryMolecular Junctions and NanostructuresPhotoreceptor and optogenetics research