Abstract
Combined density functional theory and multireference configuration interaction methods have been used to elucidate singlet fission (SF) pathways and mechanisms in three regioisomers of side-on linked pentacene dimers. In addition to the optically bright singlets (S and S ) and singly excited triplets (T and T ), the full spin manifold of multiexcitonic triplet-pair states ( ME, ME, ME) has been considered. In the ortho- and para-regioisomers, the ME and S potentials intersect upon geometry relaxation of the S excitation. In the meta-regioisomer, the crossing occurs upon delocalization of the optically bright excitation. The energetic accessibility of these conical intersections and the absence of low-lying charge-transfer states suggests a direct SF mechanism, assisted by charge-resonance effects in the ME state. While the ME state does not appear to play a role in the SF mechanism of the ortho- and para-regioisomers, its participation in the disentanglement of the triplet pair is conceivable in the meta-regioisomer.
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