Over 17.7% efficiency ternary-blend organic solar cells with low energy-loss and good thickness-tolerance

被引:108
作者
Gao, Jinhua [1 ]
Ma, Xiaoling [1 ]
Xu, Chunyu [1 ]
Wang, Xuelin [1 ]
Son, Jae Hoon [2 ]
Jeong, Sang Young [2 ]
Zhang, Yang [3 ]
Zhang, Caixia [1 ]
Wang, Kai [1 ]
Niu, Lianbin [4 ]
Zhang, Jian [5 ]
Woo, Han Young [2 ]
Zhang, Fujun [1 ]
机构
[1] Beijing Jiaotong Univ, Key Lab Luminescence & Opt Informat, Minist Educ, Beijing 100044, Peoples R China
[2] Korea Univ, Coll Sci, Dept Chem, Organ Optoelect Mat Lab, Seoul 02841, South Korea
[3] Guilin Univ Elect Technol, Sch Mat Sci & Technol, Guangxi Key Lab Informat Mat, Guilin 541004, Peoples R China
[4] Chongqing Normal Univ, Coll Phys & Elect Engn, Chongqing 401331, Peoples R China
[5] Henan Univ, Sch Mat Sci & Engn, Key Lab Special Funct Mat, Minist Educ, Kaifeng 475004, Peoples R China
来源
CHEMICAL ENGINEERING JOURNAL | 2022年 / 428卷
关键词
Organic solar cells; Ternary strategy; Energy loss; Morphology optimization; OPEN-CIRCUIT-VOLTAGE; POWER CONVERSION EFFICIENCY; POLYMER; FULLERENE; MORPHOLOGY; DISSOCIATION;
D O I
10.1016/j.cej.2021.129276
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
Ternary-blend organic solar cells (TOSCs) are fabricated with PM6:BTP-4F-12 as the host system and IT-M as the third component. The third component IT-M takes multiple roles in improving performance of TOSCs through reducing energy-loss of the optimized TOSCs, optimizing molecular arrangement and phase separation in activelayers. The well optimized molecular arrangement and phase separation can be beneficial to charge separation and transport in TOSC, which can be confirmed by the characterization of 2D grazing incidence wide-angle X-ray scattering, transmission electron microscopy, magneto-photocurrent, as well as electrochemical impedance spectroscopy. By finely optimizing IT-M content, a power-conversion-efficiency (PCE) of 17.71% is achieved in the optimized TOSCs, benefiting from simultaneously enhanced short-circuit-current density (JSC) of 25.95 mA cm-2, open-circuit-voltage (VOC) of 0.875 V and fill-factor (FF) of 78.02% in comparison with the OSCs with PM6:BTP-4F-12 as active-layers. Furthermore, average PCE over 15% can be achieved from twenty individual TOSCs with active-layer thickness of 300 nm, indicating the optimized TOSCs have excellent thickness tolerance.
引用
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页数:9
相关论文
共 58 条
[1]   Alloy-like ternary polymer solar cells with over 17.2% efficiency [J].
An, Qiaoshi ;
Wang, Jian ;
Gao, Wei ;
Ma, Xiaoling ;
Hu, Zhenghao ;
Gao, Jinhua ;
Xu, Chunyu ;
Hao, Minghui ;
Zhang, Xiaoli ;
Yang, Chuluo ;
Zhang, Fujun .
SCIENCE BULLETIN, 2020, 65 (07) :538-545
[2]   Ternary polymer solar cells with alloyed donor achieving 14.13% efficiency and 78.4% fill factor [J].
An, Qiaoshi ;
Wang, Jian ;
Zhang, Fujun .
NANO ENERGY, 2019, 60 :768-774
[3]   High-efficiency and air stable fullerene-free ternary organic solar cells [J].
An, Qiaoshi ;
Zhang, Fujun ;
Gao, Wei ;
Sun, Qianqian ;
Zhang, Miao ;
Yang, Chuluo ;
Zhang, Jian .
NANO ENERGY, 2018, 45 :177-183
[4]   Energy level modulation of non-fullerene acceptors enables efficient organic solar cells with small energy loss [J].
An, Qiaoshi ;
Gao, Wei ;
Zhang, Fujun ;
Wang, Jian ;
Zhang, Miao ;
Wu, Kailong ;
Ma, Xiaoling ;
Hu, Zhenghao ;
Jiao, Chaoqun ;
Yang, Chuluo .
JOURNAL OF MATERIALS CHEMISTRY A, 2018, 6 (06) :2468-2475
[5]   Versatile Ternary Approach for Novel Organic Solar Cells: A Review [J].
Bi, Pengqing ;
Hao, Xiaotao .
SOLAR RRL, 2019, 3 (01)
[6]   A Benzo[1,2-b:4,5-c′]Dithiophene-4,8-Dione-Based Polymer Donor Achieving an Efficiency Over 16% [J].
Chao, Pengjie ;
Chen, Hui ;
Zhu, Yulin ;
Lai, Hanjian ;
Mo, Daize ;
Zheng, Nan ;
Chang, Xiaoyong ;
Meng, Hong ;
He, Feng .
ADVANCED MATERIALS, 2020, 32 (10)
[7]   Ultrafast Channel II process induced by a 3-D texture with enhanced acceptor order ranges for high-performance non-fullerene polymer solar cells [J].
Chen, Shanshan ;
Lee, Sang Myeon ;
Xu, Jianqiu ;
Lee, Jungho ;
Lee, Kyu Cheol ;
Hou, Tianyu ;
Yang, Yankang ;
Jeong, Mingyu ;
Lee, Byongkyu ;
Cho, Yongjoon ;
Jung, Sungwoo ;
Oh, Jiyeon ;
Zhang, Zhi-Guo ;
Zhang, Chunfeng ;
Xiao, Min ;
Li, Yongfang ;
Yang, Changduk .
ENERGY & ENVIRONMENTAL SCIENCE, 2018, 11 (09) :2569-2580
[8]   Achieving High-Performance Ternary Organic Solar Cells through Tuning Acceptor Alloy [J].
Chen, Yusheng ;
Ye, Pan ;
Zhu, Zhen-Gang ;
Wang, Xinlong ;
Yang, Lei ;
Xu, Xiaozhou ;
Wu, Xiaoxi ;
Dong, Tao ;
Zhang, Hao ;
Hou, Jianhui ;
Liu, Feng ;
Huang, Hui .
ADVANCED MATERIALS, 2017, 29 (06)
[9]   Single-Junction Organic Photovoltaic Cells with Approaching 18% Efficiency [J].
Cui, Yong ;
Yao, Huifeng ;
Zhang, Jianqi ;
Xian, Kaihu ;
Zhang, Tao ;
Hong, Ling ;
Wang, Yuming ;
Xu, Ye ;
Ma, Kangqiao ;
An, Cunbin ;
He, Chang ;
Wei, Zhixiang ;
Gao, Feng ;
Hou, Jianhui .
ADVANCED MATERIALS, 2020, 32 (19)
[10]   Ternary Polymer Solar Cells Facilitating Improved Efficiency and Stability [J].
Dong, Yingying ;
Zou, Yan ;
Yuan, Jianyu ;
Yang, Hang ;
Wu, Yue ;
Cui, Chaohua ;
Li, Yongfang .
ADVANCED MATERIALS, 2019, 31 (52)
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