Triplet exciton formation for non-radiative voltage loss in high-efficiency nonfullerene organic solar cells

Zeng Chen; Xu Chen; Ziyan Jia; Guanqing Zhou; Jianqiu Xu; Yuexia Wu; Xinxin Xia; Xufeng Li; Xuning Zhang; Chao Deng; Yuan Zhang; Xinhui Lu; Weimin Liu; Chunfeng Zhang; Yang (Michael) Yang; Haiming Zhu

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Triplet exciton formation for non-radiative voltage loss in high-efficiency nonfullerene organic solar cells

机译：高效非含义有机太阳能电池中非辐射电压损耗的三联激子形成

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Nonfullerene acceptor (NFA) organic solar cells (OSCs) with power conversion efficiency (PCE) reaching up to 18% has shown tremendous potential toward practical applications. However, the non-radiative recombination loss in high-efficiency NFA OSCs is evidently large, and the origin remains unclear. Herein, by combining transient absorption spectroscopy, photovoltaic characterization, and detailed energy loss analysis, we unambiguously show the formation of NFA triplet exciton from free carrier recombination as a main non-radiative recombination and energy loss channel. More importantly, in contrast to the previous energetics point of view, we show side-chain fluorination in high-efficiency NFA OSCs has little effect on charge transfer energy landscapes but efficiently inhibits charge recombination to NFA triplet excitons, leading to higherVOCand PCE. Our findings provide a new view about energy loss in NFA OSCs and pave the way toward OSCs with lowerVOCloss and efficiency exceeding 20%.

机译：达到高达18％的电力转换效率（PCE）的非勒德兰人受机（NFA）有机太阳能电池（PCCE）对实际应用表达了巨大潜力。然而，高效NFA OSC中的非辐射重组损失显然大，并且原点仍不清楚。这里，通过组合瞬态吸收光谱，光伏表征和详细的能量损失分析，我们明确地显示了从游离载体重组作为主要非辐射重组和能量损失通道的NFA三重态激子的形成。更重要的是，与先前的能量观点相比，我们在高效的NFA OSC中显示侧链氟化对电荷转移能量景观几乎没有影响，但有效地抑制对NFA三重态激子的电荷重组，导致高级植物PCE。我们的调查结果为NFA OSC的能量损失提供了一种新的观点，并以低频带铺平了OSC的方式，效率超过20％。

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来源
《Joule》 |2021年第7期|1832-1844|共13页
作者
Zeng Chen; Xu Chen; Ziyan Jia; Guanqing Zhou; Jianqiu Xu; Yuexia Wu; Xinxin Xia; Xufeng Li; Xuning Zhang; Chao Deng; Yuan Zhang; Xinhui Lu; Weimin Liu; Chunfeng Zhang; Yang (Michael) Yang; Haiming Zhu;
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作者单位

State Key Laboratory of Modern Optical Instrumentation Key Laboratory of Excited State Materials of Zhejiang Province Department of Chemistry Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation Key Laboratory of Excited State Materials of Zhejiang Province Department of Chemistry Zhejiang University;

National Laboratory of Solid State Microstructures School of Physics and Collaborative Innovation Center of Advanced Microstructures Nanjing University;

School of Physical Science and Technology Shanghai Tech University;

Department of Physics The Chinese University of Hong Kong;

State Key Laboratory of Modern Optical Instrumentation Key Laboratory of Excited State Materials of Zhejiang Province Department of Chemistry Zhejiang University;

School of Chemistry Beijing Advanced Innovation Center for Biomedical Engineering Beihang University;

Department of Polymer Science and Engineering Zhejiang University;

School of Chemistry Beijing Advanced Innovation Center for Biomedical Engineering Beihang University;

Department of Physics The Chinese University of Hong Kong;

School of Physical Science and Technology Shanghai Tech University;

National Laboratory of Solid State Microstructures School of Physics and Collaborative Innovation Center of Advanced Microstructures Nanjing University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation Key Laboratory of Excited State Materials of Zhejiang Province Department of Chemistry Zhejiang University;

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正文语种 eng
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high-efficiency nonfullerene organic solar cells; open-circuit voltage loss; non-radiative recombination loss; triplet exciton; side-chain fluorination; charge transfer; energy loss;

机译：高效非氟伦烯有机太阳能电池;开路电压损耗;非辐射重组损失;三重态激素;侧链氟化;电荷转移;能量损失;

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专利

1. High-efficiency ternary nonfullerene organic solar cells fabricated with a near infrared acceptor enhancing exciton utilization and extending absorption [J] . Wang Bei, Fu Yingying, Yang Qingqing, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2019,第34期

机译：高效三元非氟伦烯有机太阳能电池制造，具有近红外受体，增强了激子利用和延伸吸收
2. Suppressing Energy Loss due to Triplet Exciton Formation in Organic Solar Cells: The Role of Chemical Structures and Molecular Packing [J] . Chen Xian-Kai, Wang Tonghui, Bredas Jean-Luc Advanced energy materials . 2017,第15期

机译：抑制由于三重态激子在有机太阳能电池中形成而造成的能量损失：化学结构和分子堆积的作用
3. Solution-Processed Organic Solar Cells with High Open-Circuit Voltage of 1.3 V and Low Non-Radiative Voltage Loss of 0.16 V [J] . An Ning, Cai Yunhao, Wu Hongbo, Advanced Materials . 2020,第39期

机译：解决方案处理的有机太阳能电池，具有1.3V的高开路电压，低辐射电压损耗为0.16 V
4. Low temperature aggregation transitions in N3 and Y6 acceptors enable double-annealing method that yields hierarchical morphology and superior efficiency in nonfullerene organic solar cells [C] . Yunpeng Qin, Ye Xu, Zhengxing Peng, Conference on Organic, Hybrid, and Perovskite Photovoltaics . 2020

机译：N3和Y6受体中的低温聚集过渡使双退火方法能够在非氟联的有机太阳能电池中产生分层形态和优异的效率
5. Manipulating Refractive Index in Organic Light Emitting Diodes and Direct Triplet Exciton Formation by Charge Injection [D] . Salehi, Amin. 2019

机译：用电荷注射操纵有机发光二极管中的折射率和直接三重态激子形成
6. A New Wide Bandgap Donor Polymer for Efficient Nonfullerene Organic Solar Cells with a Large Open‐Circuit Voltage [O] . Yumin Tang, Huiliang Sun, Ziang Wu, 2019

机译：一种新型的宽带隙施主聚合物用于具有高开路电压的高效非富勒烯有机太阳能电池
7. Suppressing Energy Loss due to Triplet Exciton Formation in Organic Solar Cells: The Role of Chemical Structures and Molecular Packing [O] . Chen Xiankai, Wang Tonghui, Bredas Jean-Luc 2017

机译：抑制由于三重态激子在有机太阳能电池中形成而造成的能量损失：化学结构和分子堆积的作用

Triplet exciton formation for non-radiative voltage loss in high-efficiency nonfullerene organic solar cells

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