AI Article Synopsis
- The study focuses on how optical excitations and the nature of excitons affect diffusion and carrier mobility in organic semiconductors, specifically in meso-tetraphenyl porphyrin-Zn(II) crystals.
- Through a combination of experimental techniques and theoretical models, the research identifies that more than four bands influence the optical absorption spectra, challenging traditional models based on isolated molecules.
- The findings explain the significant optical anisotropy as a result of both long- and short-range intermolecular interactions, with evidence showing that both localized and delocalized excitons play a critical role in the optical properties of these materials.
Article Abstract
The nature of optical excitations and the spatial extent of excitons in organic semiconductors, both of which determine exciton diffusion and carrier mobilities, are key factors for the proper understanding and tuning of material performances. Using a combined experimental and theoretical approach, we investigate the excitonic properties of meso-tetraphenyl porphyrin-Zn(II) crystals. We find that several bands contribute to the optical absorption spectra, beyond the four main ones considered here as the analogue to the four frontier molecular orbitals of the Gouterman model commonly adopted for the isolated molecule. By using many-body perturbation theory in the and Bethe-Salpeter equation approach, we interpret the experimental large optical anisotropy as being due to the interplay between long- and short-range intermolecular interactions. In addition, both localized and delocalized excitons in the π-stacking direction are demonstrated to determine the optical response, in agreement with recent experimental observations reported for organic crystals with similar molecular packing.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8023704 | PMC |
| http://dx.doi.org/10.1021/acs.jpclett.0c03581 | DOI Listing |
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