A ternary organic solar cell with 300 nm thick active layer shows over 14% efficiency 被引量：4

A ternary organic solar cell with 300 nm thick active layer shows over 14% efficiency

导出

摘要 In order to meet the requirements for making organic solar cells(OSCs)through solution printing techniques,great efforts have been devoted into developing high performance OSCs with relatively thicker active layers.In this work,a thick-film(300 nm)ternary OSC with a power conversion efficiency of 14.3%is fabricated by introducing phenyl-C61-butyric-acid-methyl ester(PC61BM)into a PBDB-T-2Cl:BTP-4 F host blend.The addition of PC61BM is found to be helpful for improving the hole and electron mobilities,and thus facilitates charge transport as well as suppresses charge recombination in the active layers,leading to the improved efficiencies of OSCs with relatively thicker active layers.Our results demonstrate the feasibility of employing fullerene derivative PC61BM to construct a high-efficiency thick-film ternary device,which would promote the development of thick layer ternary OSCs to fulfill the requirements of future roll to roll production. In order to meet the requirements for making organic solar cells（OSCs） through solution printing techniques, great efforts have been devoted into developing high performance OSCs with relatively thicker active layers. In this work, a thick-film（300 nm）ternary OSC with a power conversion efficiency of 14.3% is fabricated by introducing phenyl-C61-butyric-acid-methyl ester(PC61BM) into a PBDB-T-2Cl:BTP-4 F host blend. The addition of PC61BM is found to be helpful for improving the hole and electron mobilities, and thus facilitates charge transport as well as suppresses charge recombination in the active layers, leading to the improved efficiencies of OSCs with relatively thicker active layers. Our results demonstrate the feasibility of employing fullerene derivative PC61BM to construct a high-efficiency thick-film ternary device, which would promote the development of thick layer ternary OSCs to fulfill the requirements of future roll to roll production.

作者 Lijiao Ma Ye Xu Yunfei Zu Qing Liao Bowei Xu Cunbin An Shaoqing Zhang Jianhui Hou

机构地区 State Key Laboratory of Polymer Physics and Chemistry School of Chemistry and Biology Engineering University of Chinese Academy of Sciences

出处《Science China Chemistry》 SCIE EI CAS CSCD 2020年第1期21-27,共7页 中国科学（化学英文版）

基金 supported by the National Natural Science Foundation of China(21835006,21704004,91633301,51673201) the Chinese Academy of Sciences(KJZD-EW-J01) the Innovation Project supported by Beijing National Laboratory for Molecular Sciences(BNLMS-CXXM-201903)

关键词 ternary organic solar cells thick active layers carrier mobilities high efficiency ternary organic solar cells thick active layers carrier mobilities high efficiency

分类号 TM914.4 [电气工程—电力电子与电力传动]

引文网络
相关文献

同被引文献13

1Qishi Liu,Yufan Jiang,Ke Jin,Jianqiang Qin,Jingui Xu,Wenting Li,Ji Xiong,Jinfeng Liu,Zuo Xiao,Kuan Sun,Shangfeng Yang,Xiaotao Zhang,Liming Ding.18% Efficiency organic solar cells[J].Science Bulletin,2020,65(4):272-275. 被引量：88
2Tan Wang,Jianqiang Qin,Zuo Xiao,Xianyi Meng,Chuantian Zuo,Bin Yang,Hairen Tan,Junliang Yang,Shangfeng Yang,Kuan Sun,Suyuan Xie,Liming Ding.A 2.16 eV bandgap polymer donor gives 16%power conversion efficiency[J].Science Bulletin,2020,65(3):179-181. 被引量：14
3Sheng Dong,Kai Zhang,Xiang Liu,Qingwu Yin,Hin-Lap Yip,Fei Huang,Yong Cao.Efficient organic-inorganic hybrid cathode interfacial layer enabled by polymeric dopant and its application in large-area polymer solar cells[J].Science China Chemistry,2019,62(1):67-73. 被引量：4
4Qunping Fan,Wenyan Su,Yan Wang,Bing Guo,Yufeng Jiang,Xia Guo,Feng Liu,Thomas P.Russell,Maojie Zhang,Yongfang Li.Synergistic effect of fluorination on both donor and acceptor materials for high performance non-fullerene polymer solar cells with 13.5% efficiency[J].Science China Chemistry,2018,61(5):531-537. 被引量：21
5Zhen-Ye Li,Wen-Kai Zhong,Lei Ying,Ning Li,Feng Liu,Fei Huang,Yong Cao.Achieving Efficient Thick Film All-polymer Solar Cells Using a Green Solvent Additive[J].Chinese Journal of Polymer Science,2020,38(4):323-331. 被引量：6
6Qingya Wei,Wei Liu,Mario Leclerc,Jun Yuan,Honggang Chen,Yingping Zou.A-DA′D-A non-fullerene acceptors for high-performance organic solar cells[J].Science China Chemistry,2020,63(10):1352-1366. 被引量：15
7李腾飞,占肖卫.有机光伏研究进展[J].化学学报,2021,79(3):257-283. 被引量：28
8Junzhen Ren,Pengqing Bi,Jianqi Zhang,Jiao Liu,Jingwen Wang,Ye Xu,Zhixiang Wei,Shaoqing Zhang,Jianhui Hou.Molecular design revitalizes the low-cost PTV-polymer for highly efficient organic solar cells[J].National Science Review,2021,8(8):25-33. 被引量：9
9Difei Zhang,Baobing Fan,Lei Ying,Ning Li,Christoph J,Brabec,Fei Huang,Yong Cao.Recent progress in thick-film organic photovoltaic devices:Materials,devices,and processing[J].SusMat,2021,1(1):4-23. 被引量：3
10Tianyu Hao,Wenkai Zhong,Shifeng Leng,Rui Zeng,Ming Zhang,Lei Zhu,Yankang Yang,Jingnan Song,Jinqiu Xu,Guanqing Zhou,Yecheng Zou,Yongming Zhang,Feng Liu.The structure-performance correlation of bulk-heterojunction organic solar cells with multi-length-scale morphology[J].Science China Chemistry,2022,65(8):1634-1641. 被引量：1

引证文献4

1Difei Zhang,Baobing Fan,Lei Ying,Ning Li,Christoph J,Brabec,Fei Huang,Yong Cao.Recent progress in thick-film organic photovoltaic devices:Materials,devices,and processing[J].SusMat,2021,1(1):4-23. 被引量：3
2Yu Yang,Erming Feng,Hengyue Li,Zichao Shen,Wanrong Liu,Jingbo Guo,Qun Luo,Jidong Zhang,Guanghao Lu,Changqi Ma,Junliang Yang.Layer-by-layer slot-die coated high-efficiency organic solar cells processed using twin boiling point solvents under ambient condition[J].Nano Research,2021,14(11):4236-4242. 被引量：3
3Zesheng Liu,Tengfei Li,Yuze Lin.Thick Active-Layer Organic Solar Cells[J].Chinese Journal of Chemistry,2023,41(24):3739-3750.
4Xiaolei Kong,Jinyuan Zhang,Lei Meng,Chenkai Sun,Xin Jiang,Jianqi Zhang,Can Zhu,Guangpei Sun,Jing Li,Xiaojun Li,Zhixiang Wei,Yongfang Li.Low-Cost and High-Performance Polymer Solar Cells with Efficiency Insensitive to Active-Layer Thickness[J].CCS Chemistry,2023,5(12):2945-2955.

二级引证文献5

1Huanran Feng,Yvjie Dai,Lihao Guo,Di Wang,Hao Dong,Zhihui Liu,Lu Zhang,Yvjin Zhu,Chen Su,Yongsheng Chen,Weiwei Wu.Exploring ternary organic photovoltaics for the reduced nonradiative recombination and improved efficiency over 17.23%with a simple large-bandgap small molecular third component[J].Nano Research,2022,15(4):3222-3229.
2施淋枫,袁皓,孟祥川,胡笑添,陈义旺.大面积柔性有机太阳电池:器件设计与印刷技术[J].包装工程,2022,43(19):11-26.
3Xiangchuan Meng,Zhi Xing,Xiaotian Hu,Yiwang Chen.Large-area Flexible Organic Solar Cells: Printing Technologies and Modular Design[J].Chinese Journal of Polymer Science,2022,40(12):1522-1566. 被引量：3
4Zesheng Liu,Tengfei Li,Yuze Lin.Thick Active-Layer Organic Solar Cells[J].Chinese Journal of Chemistry,2023,41(24):3739-3750.
5Erming Feng,Chujun Zhang,Jianhui Chang,Hengyue Li,Liming Ding,Junliang Yang.Organic solar cells with D18 or derivatives offer efficiency over 19%[J].Journal of Semiconductors,2024,45(5):1-4.

1Tianhao Wu,Xiao Liu,Xin He,Yanbo Wang,Xiangyue Meng,Takeshi Noda,Xudong Yang,Liyuan Han.Efficient and stable tin-based perovskite solar cells by introducing π-conjugated Lewis base[J].Science China Chemistry,2020,63(1):107-115. 被引量：8
2Jinhua Gao,Jian Wang,Qiaoshi An,Xiaoling Ma,Zhenghao Hu,Chunyu Xu,Xiaoli Zhang,Fujun Zhang.Over 16.7% efficiency of ternary organic photovoltaics by employing extra PC71BM as morphology regulator[J].Science China Chemistry,2020,63(1):83-91. 被引量：5
3李阳,卢伟燕,陈伟,张雷,杨晓峰,姜玉石.两种甲状腺手术对良性甲状腺肿块患者免疫功能、炎症反应水平的影响[J].四川医学,2019,40(12):1231-1235. 被引量：14
4Yong Zhang.Are Fulleranes Responsible for the 21 Micron Feature?[J].Chinese Journal of Chemical Physics,2020,33(1):101-106.
5杨军,杨毅东,何沛贤,曹致人.基于InSAR技术对输电铁塔的稳定性研究[J].电子乐园,2019(25):472-473.
6郑博,廖湘凌,丁南,王敬国,庞晓霞.钙激活中性蛋白酶2在口腔鳞状细胞癌中的表达及对肿瘤细胞生物学行为的影响[J].中国现代医学杂志,2020,30(3):27-31. 被引量：2
7Hwa Sook Ryu,Han Young Woo.Organic solar cells for indoor power generation[J].Science China Chemistry,2020,63(1):1-2.
8Bohang Zhao,Yi Huang,Dali Liu,Yifu Yu,Bin Zhang.Integrating photocatalytic reduction of CO2 with selective oxidation of tetrahydroisoquinoline over InP–In2O3 Z-scheme p-n junction[J].Science China Chemistry,2020,63(1):28-34. 被引量：3
9Qiaoli Liu,Yajie Feng,Huijun Tian,Xiaoying He,Anqi Hu,Xia Guo.Fabrication of flexible AlGaInP LED[J].Journal of Semiconductors,2020,41(3):36-38. 被引量：2
10Xue-Feng Wang,Bowen Bai,Yuezhi Lin,Ting Qi,Cheng Du,Mingxin Song,Xiaojun Wang.High-Efficiency Rescue of Equine Infectious Anemia Virus from a CMV-Driven Infectious Clone[J].Virologica Sinica,2019,34(6):725-728. 被引量：3

Science China Chemistry

2020年第1期

浏览历史

内容加载中请稍等...

A ternary organic solar cell with 300 nm thick active layer shows over 14% efficiency 被引量：4

同被引文献13

引证文献4

二级引证文献5

相关作者

相关机构

相关主题

浏览历史