Dithieno[3,2‐b:2ʹ,3ʹ‐d]pyrrol‐Fused Asymmetrical Electron Acceptors: A Study into the Effects of Nitrogen‐Functionalization on Reducing Nonradiative Recombination Loss and Dipole Moment on Morphology
2020
Energy loss (E loss) consisting of radiative recombination loss (DeltaE 1 and DeltaE 2) and nonradiative recombination loss (DeltaE 3) is considered as an important factor for organic solar cells (OSCs). Herein, two N-functionalized asymmetrical small molecule acceptors (SMAs), namely N7IT and N8IT are designed and synthesized, to explore the effect of N on reducing E loss with sulfur (S) as a comparison. N7IT-based OSCs achieve not only a higher PCE (13.8%), but also a much lower E loss (0.57 eV) than those of the analogue (a-IT)-based OSCs (PCE of 11.5% and E loss of 0.72 eV), which are mainly attributed to N7IT's significantly enhanced charge carrier density (promoting J SC) and largely suppressed nonradiative E loss by over 0.1 eV (enhancing V OC). In comparison, N8IT, with an extended pi-conjugated length, shows relatively lower photovoltaic performance than N7IT (but higher than a-IT) due to the less favorable morphology caused by the excessively large dipole moment of the asymmetrical molecule. Finally, this work sheds light on the structure-property relationship of the N-functionalization, particularly on its effects on reducing the E loss, which could inspire the community to design and synthesize more N-functionalized SMAs.
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