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Revealing electron transport connectivity as an important factor influencing stability of organic solar cells

Haixia Hu, Rui Zhang, Dongcheng Jiang, Xinyu Mu, Jicheng Yi, Han Yu, Lik‐Kuen Ma, Bin Li, Liangliang Cao, Mengzhen Sha, Jiangkai Sun, Ruohua Gui, Wei Liu, Shijie Liang, Longlong Li, Shufen Huang, Jianyu Yuan, Chengwang Niu, Cunquan Qu, Jun Yuan, Rongkun Zhou, Chen Zhang, Lin Lu, Xiaoyan Du, Kun Gao, Weiwei Li, Shu Kong So, Yingping Zou, Yanming Sun, Xiaotao Hao, Feng Gao, He Yan, Hang Yin

2025Nature Communications7 citationsDOIOpen Access PDF

Abstract

In the pursuit of advancing the commercialization of organic solar cells (OSCs), stability emerges as a paramount challenge. Herein, we show that the electron transport connectivity is a key factor determining the electron transport and device stability of OSCs. When compared to small molecular acceptors (SMAs), the larger-size polymeric acceptors (PAs) are likely to establish an electron transport network with superior connectivity. This enhanced connectivity enables more robust electron transport during potential device degradation. Our findings indicate that PA-integrated devices sustain elevated electron mobilities, even under reduced acceptor ratios (or higher impurity doping) over prolonged device operation. Furthermore, we employ the refined Su-Schrieffer-Heeger tight-binding model, in tandem with a random electron passing test and algebraic connectivity evaluations of molecular configurations, to conclusively validate the pivotal role played by the electron transport connectivity. These revelations are poised to offer new perspectives for material choices and methodologies for improving stability of OSCs. The commercialization of organic solar cells has been hindered by the limited device stability. Here, authors show that the connectivity of electron transport network is a key factor determining electron transport and device stability, with polymeric acceptors likely to establish such a network.

Topics & Concepts

Organic solar cellElectronElectron transport chainStability (learning theory)Materials scienceChemical physicsNanotechnologyEnvironmental sciencePhotovoltaic systemComputer scienceChemistryPhysicsBiologyEcologyMachine learningBiochemistryQuantum mechanicsOrganic Electronics and PhotovoltaicsConducting polymers and applicationsThin-Film Transistor Technologies
Revealing electron transport connectivity as an important factor influencing stability of organic solar cells | Litcius