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5 October 2015 Exciton binding energy limitations in organic materials and potentials for improvements (Presentation Recording)
Stefan Kraner, Reinhard Scholz, Eric Müller, Martin Knupfer, Christian Koerner, Karl Leo
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Proceedings Volume 9567, Organic Photovoltaics XVI; 95670E (2015) https://doi.org/10.1117/12.2187831
Event: SPIE Organic Photonics + Electronics, 2015, San Diego, California, United States
Abstract
In current organic photovoltaic devices, the loss in energy caused by the inevitable charge transfer step leads to a low open circuit voltage, which is 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 below 25 meV, which would lead to free charges upon absorption of a photon, and therefore increase the power conversion efficiency towards the Shockley Queisser limit for inorganic solar cells. We determine the size of the excitons for different one-dimensional organic small molecules or polymers by electron energy loss spectroscopy (EELS) measurements and by DFT calculations. Using the measured dielectric constant and exciton extension, the exciton binding energy is calculated for the investigated molecules, leading to a lower limit of the exciton binding energy for ladder-type polymers. We discuss and propose potential ways to increase the ionic and electronic part of the dielectric function in order to further lower the limit of the exciton binding energy in organic materials. Furthermore, the influence of charge transfer states on the exciton size and its binding energy is calculated with DFT methods for the ladder-type polymer poly(benzimidazobenzophenanthroline) (BBL) in a dimer configuration.
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Stefan Kraner, Reinhard Scholz, Eric Müller, Martin Knupfer, Christian Koerner, and Karl Leo "Exciton binding energy limitations in organic materials and potentials for improvements (Presentation Recording)", Proc. SPIE 9567, Organic Photovoltaics XVI, 95670E (5 October 2015); https://doi.org/10.1117/12.2187831
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KEYWORDS
Excitons
Organic materials
Polymers
Dielectrics
Energy efficiency
Molecules
Solar energy
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