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Electron Acceptors Based on alpha-Substituted Perylene Diimide (PDI) for Organic Solar Cells

机译:基于α-取代的苝二酰亚胺(PDI)的有机太阳能电池电子受体

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Perylene diimide (PDI) derivatives functionalized at the ortho-position (alpha PPID, alpha PBDT) were synthesized and used as electron acceptors in non-fullerene organic photovoltaic cells. Because of the good planarity and strong pi-stacking of ortho-functionalized PDI, the alpha PPID and alpha PBDT exhibit a strong tendency to form aggregates, which endow the materials with high electron mobility. The inverted OPVs employing alpha PDI-based compounds as the acceptors and PBT7-Th as the donor give the highest power conversion efficiency (PCE) values: 4.92 for alpha PBDT-based devices and 3.61 for alpha PPID-based devices, which are, respectively, 39 and 4 higher than that of their beta-substituted counterparts beta PBDT and beta PPID. Charge separation studies show more efficient exciton dissociation at interfaces between alpha PDI-based compounds and PTB7-Th. The results suggest that alpha-substituted PDI derivatives are more promising electron acceptors for organic photovoltaic (OPV) components than beta-isomers.
机译:合成了在邻位官能化苝二酰亚胺(PDI)衍生物(α PPID、α PBDT),并用作非富勒烯有机光伏电池的电子受体。由于正交官能团PDI具有良好的平面性和较强的π堆叠性,α PPID和α PBDT表现出强烈的聚集体倾向,赋予材料较高的电子迁移率。采用基于α PDI的化合物作为受体和PBT7-Th作为供体的倒置OPV具有最高的功率转换效率(PCE)值:基于α PBDT的器件为4.92%,基于α PPID的器件为3.61%,分别比β取代的对应物β PBDT和β PPID高39%和4%。电荷分离研究表明,在基于α PDI的化合物和PTB7-Th之间的界面上,激子解离更有效。结果表明,α-取代的PDI衍生物是有机光伏(OPV)组分比β-异构体更有前途的电子受体。

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