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Influence of the N atom position on the excited state photodynamics of protonated azaindole

Jennifer A. Noble, Ernesto Marceca, Claude Dedonder, Witchaya Phasayavan, Géraldine Féraud, Burapat Inceesungvorn, Christophe Jouvet

2020Physical Chemistry Chemical Physics14 citationsDOIOpen Access PDF

Abstract

We present a study of the photofragmentation of three protonated azaindole molecules - 7-azaindole, 6-azaindole, and 5-azaindole - consisting of fused pyrrole-pyridine bicyclic aromatic systems, in which the pyridinic (protonated) nitrogen heteroatom is located at the 7, 6, and 5 positions, respectively. Photofragmentation electronic spectra of the isolated aforementioned azaindolinium cations reveal that their photodynamics extends over timescales covering nine orders of magnitude and provide evidence about the resultant fragmentation pathways. Moreover, we show how the position of the heteroatom in the aromatic skeleton influences the excited state energetics, fragmentation pathways, and fragmentation timescales. Computed ab initio adiabatic transition energies are used to assist the assignation of the spectra, while geometry optimisation in the excited electronic states as well as ab initio calculations along the potential surfaces demonstrate the role of ππ*/πσ* coupling and/or large geometry changes in the dynamics of these species. Evidence supporting the formation of Dewar valence isomers as intermediates involved in sub-picosecond relaxation processes is discussed.

Topics & Concepts

ProtonationExcited stateChemistryAtom (system on chip)Relaxation (psychology)Nitrogen atomPosition (finance)PhotochemistryAtomic physicsPhysicsOrganic chemistryIonEconomicsComputer sciencePsychologyFinanceSocial psychologyEmbedded systemGroup (periodic table)Photochemistry and Electron Transfer StudiesAdvanced Chemical Physics StudiesRadical Photochemical Reactions
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