Abstract
Electronic factors controlling singlet fission (SF) rates are investigated in four-chromophore model systems comprising two covalently linked dimers of tetracene. By using adiabatic framework and wave function analysis tools, we show that the lowest singlet multiexciton states are localized on the individual molecules. The intermolecular ME states, in which the triplet excitons reside on separate moieties, are higher in energy and are not accessible from the lowest singlet excitonic state. Although the electronic states from the excitonic/charge-resonance band are delocalized over the four chromophores, the calculations suggest that the essential electronic properties controlling the rates of SF depend largely on the electronic properties of the individual covalently linked chromophores, owing to the strong through-bond couplings.
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