Near IR-Sensitive, Non-toxic, Polymer/Nanocrystal Solar Cells Employing Bi2S3 as the Electron Acceptor

被引:84
作者
Martinez, Luis [1 ]
Bernechea, Maria [1 ]
Garcia de Arquer, F. Pelayo [1 ]
Konstantatos, Gerasimos [1 ]
机构
[1] ICFO Inst Ciencies Foton, Barcelona 08860, Spain
来源
ADVANCED ENERGY MATERIALS | 2011年 / 1卷 / 06期
关键词
non-toxic; electron acceptors; nanocrystals; polymers; solar cells; PHOTOVOLTAIC CELLS; QUANTUM DOTS; POLYMER; PERFORMANCE; POLYTHIOPHENE;
D O I
10.1002/aenm.201100441
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
[No abstract available]
引用
收藏
页码:1029 / 1035
页数:7
相关论文
共 34 条
[21]   Preparation of high efficiency Cu2ZnSn(S,Se)4 solar cells from novel non-toxic hybrid ink [J].
Wang, Wei ;
Shen, Honglie ;
Wong, Lydia Helena ;
Yao, Hanyu ;
Su, Zhenghua ;
Li, Yufang .
JOURNAL OF POWER SOURCES, 2016, 335 :84-90
[22]   Introducing Bi2S3 Interlayer to Synergistically Modify Mo Back Contact and Regulate Bulk Defects in Kesterite Solar Cells [J].
Cui, Guonan ;
Yang, Yanchun ;
Bai, Lulu ;
Wang, Rui ;
Gong, Zhihui ;
Cao, Yongjun ;
Li, Shuyu ;
Lv, Xiaogong ;
Zhu, Chengjun .
SMALL, 2024, 20 (47)
[23]   Inexpensive green synthesis of natural dye-sensitized solar cells with aqueous solution as a Bi2S3 counter electrode [J].
Shaikh, Rahilah S. ;
Rajput, Rekha B. ;
Kale, Rohidas B. .
NEXT MATERIALS, 2024, 3
[24]   Achieving high efficiency Cu2ZnSn(S,Se)4 solar cells by non-toxic aqueous ink: Defect analysis and electrical modeling [J].
Wei, Shih-Yuan ;
Liao, Yueh-Chun ;
Hsu, Chia-Hao ;
Cai, Chung-Hao ;
Huang, Wei-Chih ;
Huang, Mao-Cheng ;
Lai, Chih-Huang .
NANO ENERGY, 2016, 26 :74-82
[25]   Influence of cycle numbers on optical parameters of nanostructured Bi2S3 thin films using SILAR method for solar cells light harvesting [J].
Bouachri, M. ;
El Farri, H. ;
Beraich, M. ;
Taibi, M. ;
Nouneh, K. ;
Fahoume, M. .
MATERIALIA, 2021, 20
[26]   Engineering Bi2S3/BiOI p-n heterojunction to sensitize TiO2 nanotube arrays photoelectrodes for highly efficient solar cells and photocatalysts [J].
Wang, Qingyao ;
Liu, Zhiyuan ;
Feng, Hao ;
Jin, Rencheng ;
Zhang, Shaohua ;
Gao, Shanmin .
CERAMICS INTERNATIONAL, 2019, 45 (03) :3995-4002
[27]   Bi2S3 nanoparticles densely grown on electrospun-carbon-nanofibers as low-cost counter electrode for liquid-state solar cells [J].
Zhao, Xiaohui ;
Wang, Dongyang ;
Liu, Shuang'an ;
Li, Zixiang ;
Meng, Jie ;
Ran, Yungen ;
Zhang, Yucang ;
Li, Ling .
MATERIALS RESEARCH BULLETIN, 2020, 125
[28]   Tetrafluorene-9,9′-bifluorenylidene as a non-fullerene type electron acceptor for P3HT-based bulk-heterojunction polymer solar cells [J].
Park, On You ;
Kim, Hee Un ;
Kim, Ji-Hoon ;
Park, Jong Baek ;
Kwak, Jeonghun ;
Shin, Won Suk ;
Yoon, Sung Cheol ;
Hwang, Do-Hoon .
SOLAR ENERGY MATERIALS AND SOLAR CELLS, 2013, 116 :275-282
[29]   2D/1A ternary blend system enables non-fused ring electron acceptor based polymer solar cells with improved photovoltaic parameters [J].
Chen, Yinchu ;
Wu, Zhuhao ;
Yuan, Dong ;
Pan, Feilong ;
Qiu, Rihang ;
Zhang, Zesheng ;
Zhang, Lianjie ;
Chen, Junwu .
ORGANIC ELECTRONICS, 2022, 107
[30]   Development of Bi2S3 thin film solar cells by close-spaced sublimation and analysis of absorber bulk defects via in-depth photoluminescence analysis [J].
Koltsov, M. ;
Gopi, S. V. ;
Raadik, T. ;
Krustok, J. ;
Josepson, R. ;
Grzibovskis, R. ;
Vembris, A. ;
Spalatu, N. .
SOLAR ENERGY MATERIALS AND SOLAR CELLS, 2023, 254
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