有机太阳电池新时代:高分子给体(英文)
发布时间:2022-04-22 21:18
<正>Organic solar cells (OSCs) based on bulk heterojunction, consisting of a polymer donor and a small molecular acceptor (SMA) represent a promising photovoltaic technology due to their prospect in producing large-area modules via low-cost roll-to-roll processing [1]. This field has experienced three stages according to the type of electron acceptors. Prior to 2015, the electron acceptors
【文章页数】:3 页
【文章目录】:
Conflict
of
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【参考文献】:
期刊论文
[1]有机太阳电池效率突破18%(英文)[J]. 刘启世,江宇凡,金柯,秦建强,许金桂,李文婷,熊骥,刘金凤,肖作,孙宽,杨上峰,张小涛,丁黎明. Science Bulletin. 2020(04)
[2]Improving open-circuit voltage by a chlorinated polymer donor endows binary organic solar cells efficiencies over 17%[J]. Ruijie Ma,Tao Liu,Zhenghui Luo,Qing Guo,Yiqun Xiao,Yuzhong Chen,Xiaojun Li,Siwei Luo,Xinhui Lu,Maojie Zhang,Yongfang Li,He Yan. Science China(Chemistry). 2020(03)
[3]基于2.16eV超宽带隙高分子给体的有机太阳电池效率突破16%(英文)[J]. 王坦,秦建强,肖作,孟宪义,左传天,杨斌,谭海仁,阳军亮,杨上峰,孙宽,谢素原,丁黎明. Science Bulletin. 2020(03)
[4]Rationally pairing photoactive materials for high-performance polymer solar cells with efficiency of 16.53%[J]. Yue Wu,Yan Zheng,Hang Yang,Chenkai Sun,Yingying Dong,Chaohua Cui,He Yan,Yongfang Li. Science China(Chemistry). 2020(02)
[5]Thiolactone copolymer donor gifts organic solar cells a 16.72% efficiency[J]. Ji Xiong,Ke Jin,Yufan Jiang,Jianqiang Qin,Tan Wang,Jinfeng Liu,Qishi Liu,Haili Peng,Xiongfeng Li,Anxin Sun,Xianyi Meng,Lixiu Zhang,Ling Liu,Wenting Li,Zhimin Fang,Xue Jia,Zuo Xiao,Yaqing Feng,Xiaotao Zhang,Kuan Sun,Shangfeng Yang,Shengwei Shi,Liming Ding. Science Bulletin. 2019(21)
[6]Achieving over 16% efficiency for single-junction organic solar cells[J]. Baobing Fan,Difei Zhang,Meijing Li,Wenkai Zhong,Zhaomiyi Zeng,Lei Ying,Fei Huang,Yong Cao. Science China(Chemistry). 2019(06)
本文编号:3646723
【文章页数】:3 页
【文章目录】:
Conflict
of
interest
【参考文献】:
期刊论文
[1]有机太阳电池效率突破18%(英文)[J]. 刘启世,江宇凡,金柯,秦建强,许金桂,李文婷,熊骥,刘金凤,肖作,孙宽,杨上峰,张小涛,丁黎明. Science Bulletin. 2020(04)
[2]Improving open-circuit voltage by a chlorinated polymer donor endows binary organic solar cells efficiencies over 17%[J]. Ruijie Ma,Tao Liu,Zhenghui Luo,Qing Guo,Yiqun Xiao,Yuzhong Chen,Xiaojun Li,Siwei Luo,Xinhui Lu,Maojie Zhang,Yongfang Li,He Yan. Science China(Chemistry). 2020(03)
[3]基于2.16eV超宽带隙高分子给体的有机太阳电池效率突破16%(英文)[J]. 王坦,秦建强,肖作,孟宪义,左传天,杨斌,谭海仁,阳军亮,杨上峰,孙宽,谢素原,丁黎明. Science Bulletin. 2020(03)
[4]Rationally pairing photoactive materials for high-performance polymer solar cells with efficiency of 16.53%[J]. Yue Wu,Yan Zheng,Hang Yang,Chenkai Sun,Yingying Dong,Chaohua Cui,He Yan,Yongfang Li. Science China(Chemistry). 2020(02)
[5]Thiolactone copolymer donor gifts organic solar cells a 16.72% efficiency[J]. Ji Xiong,Ke Jin,Yufan Jiang,Jianqiang Qin,Tan Wang,Jinfeng Liu,Qishi Liu,Haili Peng,Xiongfeng Li,Anxin Sun,Xianyi Meng,Lixiu Zhang,Ling Liu,Wenting Li,Zhimin Fang,Xue Jia,Zuo Xiao,Yaqing Feng,Xiaotao Zhang,Kuan Sun,Shangfeng Yang,Shengwei Shi,Liming Ding. Science Bulletin. 2019(21)
[6]Achieving over 16% efficiency for single-junction organic solar cells[J]. Baobing Fan,Difei Zhang,Meijing Li,Wenkai Zhong,Zhaomiyi Zeng,Lei Ying,Fei Huang,Yong Cao. Science China(Chemistry). 2019(06)
本文编号:3646723
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