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Hexanary blends: a strategy towards thermally stable organic photovoltaics.

Sri Harish Kumar PaletiSandra HultmarkJianhua HanYuanfan WenHan XuSi ChenEmmy JärsvallIshita JalanDiego Rosas VillalvaAnirudh SharmaJafar I KhanEllen MoonsRuipeng LiLiyang YuJulien GorenflotFrédéric LaquaiChristian MüllerDerya Baran
Published in: Nature communications (2023)
Non-fullerene based organic solar cells display a high initial power conversion efficiency but continue to suffer from poor thermal stability, especially in case of devices with thick active layers. Mixing of five structurally similar acceptors with similar electron affinities, and blending with a donor polymer is explored, yielding devices with a power conversion efficiency of up to 17.6%. The hexanary device performance is unaffected by thermal annealing of the bulk-heterojunction active layer for at least 23 days at 130 °C in the dark and an inert atmosphere. Moreover, hexanary blends offer a high degree of thermal stability for an active layer thickness of up to 390 nm, which is advantageous for high-throughput processing of organic solar cells. Here, a generic strategy based on multi-component acceptor mixtures is presented that permits to considerably improve the thermal stability of non-fullerene based devices and thus paves the way for large-area organic solar cells.
Keyphrases
  • solar cells
  • high throughput
  • water soluble
  • optical coherence tomography
  • photodynamic therapy