Login / Signup

Semiclassical Approach to Photophysics Beyond Kasha's Rule and Vibronic Spectroscopy Beyond the Condon Approximation. The Case of Azulene.

Antonio PrljTomislav BegušićZhan Tong ZhangGeorge Cameron FishMarius WehrleTomáš ZimmermannSeonghoon ChoiJulien RouletJacques-Edouard MoserJiří J L Vaníček
Published in: Journal of chemical theory and computation (2020)
Azulene is a prototypical molecule with an anomalous fluorescence from the second excited electronic state, thus violating Kasha's rule, and with an emission spectrum that cannot be understood within the Condon approximation. To better understand the photophysics and spectroscopy of azulene and other nonconventional molecules, we developed a systematic, general, and efficient computational approach combining the semiclassical dynamics of nuclei with ab initio electronic structure. First, to analyze the nonadiabatic effects, we complement the standard population dynamics by a rigorous measure of adiabaticity, estimated with the multiple-surface dephasing representation. Second, we propose a new semiclassical method for simulating non-Condon spectra, which combines the extended thawed Gaussian approximation with the efficient single-Hessian approach. S1 ← S0 and S2 ← S0 absorption and S2 → S0 emission spectra of azulene, recorded in a new set of experiments, agree very well with our calculations. We find that accuracy of the evaluated spectra requires the treatment of anharmonicity, Herzberg-Teller, and mode-mixing effects.
Keyphrases
  • density functional theory
  • single molecule
  • molecular dynamics
  • solid state
  • high resolution
  • molecular dynamics simulations
  • quantum dots
  • pregnancy outcomes