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Mapping the energy level alignment at donor/acceptor interfaces in non-fullerene organic solar cells

Xian’e Li, Qilun Zhang, Jianwei Yu, Ye Xu, Rui Zhang, Chuanfei Wang, Huotian Zhang, Simone Fabiano, Xianjie Liu, Jianhui Hou, Feng Gao, Mats Fahlman

2022Nature Communications115 citationsDOIOpen Access PDF

Abstract

Energy level alignment (ELA) at donor (D) -acceptor (A) heterojunctions is essential for understanding the charge generation and recombination process in organic photovoltaic devices. However, the ELA at the D-A interfaces is largely underdetermined, resulting in debates on the fundamental operating mechanisms of high-efficiency non-fullerene organic solar cells. Here, we systematically investigate ELA and its depth-dependent variation of a range of donor/non-fullerene-acceptor interfaces by fabricating and characterizing D-A quasi bilayers and planar bilayers. In contrast to previous assumptions, we observe significant vacuum level (VL) shifts existing at the D-A interfaces, which are demonstrated to be abrupt, extending over only 1-2 layers at the heterojunctions, and are attributed to interface dipoles induced by D-A electrostatic potential differences. The VL shifts result in reduced interfacial energetic offsets and increased charge transfer (CT) state energies which reconcile the conflicting observations of large energy level offsets inferred from neat films and large CT energies of donor - non-fullerene-acceptor systems.

Topics & Concepts

FullereneOrganic solar cellHeterojunctionAcceptorChemical physicsDipoleMaterials sciencePhotovoltaic systemCharge (physics)PlanarOptoelectronicsNanotechnologyChemistryPhysicsCondensed matter physicsComputer scienceBiologyPolymerOrganic chemistryQuantum mechanicsEcologyComposite materialComputer graphics (images)Organic Electronics and PhotovoltaicsConducting polymers and applicationsMolecular Junctions and Nanostructures
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