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Miscibility Control by Tuning Electrostatic Interactions in Bulk Heterojunction for Efficient Organic Solar Cells

Lijiao Ma, Shaoqing Zhang, Jingwen Wang, Junzhen Ren, Mengyuan Gao, Jianqi Zhang, Tao Zhang, Huifeng Yao, Long Ye, Jianhui Hou

2021ACS Materials Letters47 citationsDOI

Abstract

The morphology of the bulk heterojunction plays a vital role in determining the efficiencies of the organic photovoltaic (OPV) cells. Although the device efficiencies have been greatly improved, the practice guidelines in morphology control are still lacking. In this work, impressive performance of 17.7% was achieved by modulating the electrostatic interaction and, thus, the miscibility between the newly designed polymer donors (P5T, P5T-2F) and a nonfullerene acceptor (NFA) named eC9. Three model compounds (8T, 8T-2F, and TT-2Cl) are prepared to deeply study the miscibility of the donors and acceptors in the active layers. Our findings demonstrate that the decreased molecular interaction and miscibility in P5T-2F:eC9 combinations is more favorable for obtaining suitable phase separation morphology. This work proposes specific molecular design strategy to optimize the donor:acceptor (D:A) bulk morphology, which is crucial for further boosting the efficiency of the OPV cells.

Topics & Concepts

MiscibilityPolymer solar cellMaterials scienceOrganic solar cellAcceptorPolymerHeterojunctionChemical engineeringMorphology (biology)Photovoltaic systemNanotechnologyOptoelectronicsComposite materialPhysicsGeneticsEcologyBiologyCondensed matter physicsEngineeringOrganic Electronics and PhotovoltaicsConducting polymers and applicationsThin-Film Transistor Technologies
Miscibility Control by Tuning Electrostatic Interactions in Bulk Heterojunction for Efficient Organic Solar Cells | Litcius