Electronic structure of solid coronene: differences and commonalities to picene
Abstract
We have obtained the first-principles electronic structure of solid coronene, which has been recently discovered to exhibit superconductivity with potassium doping. Since coronene, along with picene, the first aromatic superconductor, now provide a class of superconductors as solids of aromatic compounds, here we compare the two cases in examining the electronic structures. In the undoped coronene crystal, where the molecules are arranged in a herringbone structure with two molecules in a unit cell, the conduction band above an insulating gap is found to comprise four bands, which basically originate from the lowest two unoccupied molecular orbitals (doubly-degenerate, reflecting the high symmetry of the molecular shape) in an isolated molecule but the bands are entangled as in solid picene. The Fermi surface for a candidate of the structure of Kcoronene with , for which superconductivity is found, comprises multiple sheets, as in doped picene but exhibiting a larger anisotropy with different topology.
Cite
@article{arxiv.1105.0248,
title = {Electronic structure of solid coronene: differences and commonalities to picene},
author = {Taichi Kosugi and Takashi Miyake and Shoji Ishibashi and Ryotaro Arita and Hideo Aoki},
journal= {arXiv preprint arXiv:1105.0248},
year = {2015}
}
Comments
5 pages, to be published in Phys. Rev. B