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Structural and excited-state properties of oligoacene crystals from first principles

T. Rangel ; Kristian Berland ; S. Sharifzadeh ; F. Brown-Altvater ; K. Lee ; Per Hyldgaard (Institutionen för mikroteknologi och nanovetenskap, Elektronikmaterial och system ) ; L. Kronik ; J. B. Neaton
Physical Review B. Condensed Matter and Materials Physics (1098-0121). Vol. 93 (2016), 11,
[Artikel, refereegranskad vetenskaplig]

Molecular crystals are a prototypical class of van der Waals (vdW) bound organic materials with excited-state properties relevant for optoelectronics applications. Predicting the structure and excited-state properties of molecular crystals presents a challenge for electronic structure theory, as standard approximations to density functional theory (DFT) do not capture long-range vdW dispersion interactions and do not yield excited-state properties. In this work, we use a combination of DFT including vdW forces, using both nonlocal correlation functionals and pairwise correction methods, together with many-body perturbation theory (MBPT) to study the geometry and excited states, respectively, of the entire series of oligoacene crystals, from benzene to hexacene. We find that vdW methods can predict lattice constants within 1% of the experimental measurements, on par with the previously reported accuracy of pairwise approximations for the same systems. We further find that excitation energies are sensitive to geometry, but if optimized geometries are used MBPT can yield excited-state properties within a few tenths of an eV from experiment. We elucidate trends in MBPT-computed charged and neutral excitation energies across the acene series and discuss the role of common approximations used in MBPT.

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Denna post skapades 2016-04-29. Senast ändrad 2016-06-30.
CPL Pubid: 235640


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