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W2201416864 abstract "In current organic photovoltaic devices, the loss in energy caused by the charge transfer step necessary for exciton dissociation leads to a low open circuit voltage, being one of the main reasons for rather low power conversion efficiencies. A possible approach to avoid these losses is to tune the exciton binding energy to a value of the order of thermal energy, which would lead to free charges upon absorption of a photon, and therefore increase the power conversion efficiency towards the Shockley-Queisser limit. We determine the size of the excitons for different organic molecules and polymers by time dependent density functional theory calculations. For optically relevant transitions, the exciton size saturates around 0.7 nm for one-dimensional molecules with a size longer than about 4 nm. For the ladder-type polymer poly(benzimidazobenzophenanthroline), we obtain an exciton binding energy of about 0.3 eV, serving as a lower limit of the exciton binding energy for the organic materials investigated. Furthermore, we show that charge transfer transitions increase the exciton size and thus identify possible routes towards a further decrease of the exciton binding energy." @default.
W2201416864 created "2016-06-24" @default.
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W2201416864 date "2015-12-28" @default.
W2201416864 modified "2023-10-13" @default.
W2201416864 title "Exciton size and binding energy limitations in one-dimensional organic materials" @default.
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W2201416864 doi "https://doi.org/10.1063/1.4938527" @default.
W2201416864 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26723709" @default.
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