2016
DOI: 10.1073/pnas.1606021113
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Nature of ground and electronic excited states of higher acenes

Abstract: Higher acenes have drawn much attention as promising organic semiconductors with versatile electronic properties. However, the nature of their ground state and electronic excited states is still not fully clear. Their unusual chemical reactivity and instability are the main obstacles for experimental studies, and the potentially prominent diradical character, which might require a multireference description in such large systems, hinders theoretical investigations. Here, we provide a detailed answer with the p… Show more

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Cited by 174 publications
(241 citation statements)
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“…Very recent quantum-chemistry calculations on the level of density -functional multi-reference theory (DFT/MRCI) for oligoacenes (up to N R = 9) and pp-RPA (up to N R = 12) may give an indication that this indeed could be the case. 7,8 The authors of Ref. 7 confirm earlier findings 29 that best agreement between DFT/MRCI results and experimental IRexcitation energies is achieved for closed-shell reference states (with B3LYP functional) even though spin-unrestricted calculations may produce a lower total energy.…”
Section: Resultssupporting
confidence: 57%
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“…Very recent quantum-chemistry calculations on the level of density -functional multi-reference theory (DFT/MRCI) for oligoacenes (up to N R = 9) and pp-RPA (up to N R = 12) may give an indication that this indeed could be the case. 7,8 The authors of Ref. 7 confirm earlier findings 29 that best agreement between DFT/MRCI results and experimental IRexcitation energies is achieved for closed-shell reference states (with B3LYP functional) even though spin-unrestricted calculations may produce a lower total energy.…”
Section: Resultssupporting
confidence: 57%
“…8 propose an exponential decay of the lowest lying spin-triplet gap with increasing N R saturating near N R = 11 at roughly 0.13 eV without a trace of IO. If indeed correct, this finding could still be interpreted within the short-range model.…”
Section: Resultsmentioning
confidence: 96%
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“…These are continuously elongated when going from the end rings to the central bond. Because of the lack of experimental data for the structures of octacene, the MP2 bond lengths are compared with the values derived from both restricted (RB3LYP) and unrestricted (UB3LYP) DFT geometry optimizations performed by Yang et al 40 (see Table S1, ESI †). The C-C bond distances predicted by MP2 are shorter by less than 0.02 Å in comparison with those obtained using RB3LYP.…”
Section: Molecular Structurementioning
confidence: 99%
“…Famously, DMRG calculations have been used to show that the larger linear polyacenes exhibit strong correlation for their π electrons [55]. Other approaches used have included density functional theory [56][57][58][59][60][61], multiconfiguration pair-density functional theory [62], projected Hartree-Fock theory [63], the random phase approximation [64], configuration interaction [60] (CI), adaptive CI [27], GW theory [65], variational two-electron reduced density matrix (VRDM) theory [66][67][68][69], MĂžller-Plesset perturbation theory [61,[70][71][72][73], spin-flip methods [74,75], CAS-SCF [53,59,71,72,76] as well as restricted-active space self-consistent field theory [77], valence bond [78] and CC valence bond (CCVB) theory [79,80], CC theory [70][71][72]80] and multireference averaged quadratic CC theory [81,82], an algebraic diagrammatic construction scheme [83], as well as PPH methods with approximate orbitals [50].…”
Section: Introductionmentioning
confidence: 99%