Abstract
We examine the electronic ground states of acenes with different numbers of fused benzene rings (up to 40) by using first principles density functional theory. Their properties are compared with those of infinite polyacene. We find that the ground state of acenes that consist of more than seven fused benzene rings is an antiferromagnetic (in other words, open-shell singlet) state, and we show that this singlet is not necessarily a diradical, because the spatially separated magnetizations for the spin-up and spin-down electrons increase with the size of the acene. For example, our results indicate that there are about four spin-up electrons localized at one zigzag edge of 20-acene. The reason that both acenes and polyacene have the antiferromagnetic ground state is due to the zigzag-shaped boundaries, which cause π-electrons to localize and form spin orders at the edges. Both wider graphene ribbons and large rectangular-shaped polycyclic aromatic hydrocarbons have been shown to share this antiferromagnetic ground state. Therefore, we demonstrate that the π-electronic structures of higher acenes and polyacene are still dictated by the zigzag edges, and our results provide a consistent description of their electronic ground state.
Original language | English |
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Pages (from-to) | 332-335 |
Number of pages | 4 |
Journal | Journal of Physical Chemistry A |
Volume | 112 |
Issue number | 2 |
DOIs | |
State | Published - Jan 17 2008 |