1. Reducing Non-Radiative Voltage Losses by Methylation of Push-Pull Molecular Donors in Organic Solar Cells.
- Author
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Baisinger L, Andrés Castán JM, Simón Marqués P, Londi G, Göhler C, Deibel C, Beljonne D, Cabanetos C, Blanchard P, Benduhn J, Spoltore D, and Leo K
- Abstract
Organic solar cells are approaching power conversion efficiencies of other thin-film technologies. However, in order to become truly market competitive, the still substantial voltage losses need to be reduced. Here, the synthesis and characterization of four novel arylamine-based push-pull molecular donors was described, two of them exhibiting a methyl group at the para-position of the external phenyl ring of the arylamine block. Assessing the charge-transfer state properties and the effects of methylation on the open-circuit voltage of the device showed that devices based on methylated versions of the molecular donors exhibited reduced voltage losses due to decreased non-radiative recombination. Modelling suggested that methylation resulted in a tighter interaction between donor and acceptor molecules, turning into a larger oscillator strength to the charge-transfer states, thereby ensuing reduced non-radiative decay rates., (© 2021 The Authors. ChemSusChem published by Wiley-VCH GmbH.)
- Published
- 2021
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