Calculating optical absorption spectra of thin polycrystalline films: Structural disorder and site-dependent van der Waals interaction

Abstract

We propose a new approach for calculating the change of the absorption spectrum of a molecule when moved from the gas phase to a crystalline morphology. The so-called gas-to-crystal shift Em is mainly caused by dispersion effects and depends sensitively on the molecule's specific position in the nanoscopic setting. Using an extended dipole approximation, we are able to divide Em= -Q Wm in two factors where Q depends only on the molecular species and accounts for all non-resonant electronic transitions contributing to the dispersion, while Wm is a sum running over the position of all molecules expressing the site-dependence of the shift in a given molecular structure. The ability of our approach to predict absorption spectra is demonstrated using the example of polycrystalline films of 3,4,9,10-perylene-tetracarboxylic-diimide (PTCDI).