Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/efficient-hybrid-amorphous-silicon-organic-tandem-solar-cells-enabled-GdnNQq7big
References (43)
-
Youqi Zhu, Abay Gadisa, Zhengxing Peng, Masoud Ghasemi, L. Ye, Zheng Xu, Suling Zhao, H. Ade (2019)
Rational Strategy to Stabilize an Unstable High‐Efficiency Binary Nonfullerene Organic Solar Cells with a Third ComponentAdvanced Energy Materials, 9
-
K. Fukutani, Mika Kanbe, W. Futako, B. Kaplan, T. Kamiya, C. Fortmann, I. Shimizu (1998)
Band gap tuning of a-Si:H from 1.55 eV to 2.10 eV by intentionally promoting structural relaxationJournal of Non-crystalline Solids, 227
-
Nutifafa Doumon, Mikhail Dryzhov, Félix Houard, Vincent Corre, Azadeh Chatri, Panagiotis Christodoulis, L. Koster (2019)
Photostability of Fullerene and Non-Fullerene Polymer Solar Cells: The Role of the AcceptorACS Applied Materials & Interfaces, 11
-
H. Tan, A. Furlan, Weiwei Li, K. Arapov, R. Santbergen, M. Wienk, M. Zeman, A. Smets, René Janssen (2016)
Highly Efficient Hybrid Polymer and Amorphous Silicon Multijunction Solar Cells with Effective Optical ManagementAdvanced Materials, 28
-
J. Halls, K. Pichler, R. Friend, S. Moratti, A. Holmes (1996)
EXCITON DIFFUSION AND DISSOCIATION IN A POLY(P-PHENYLENEVINYLENE)/C60 HETEROJUNCTION PHOTOVOLTAIC CELLApplied Physics Letters, 68
-
Smith, Wagner (1985)
Intrinsic dangling-bond density in hydrogenated amorphous silicon.Physical review. B, Condensed matter, 32 8
-
W. Spear, P. Comber, S. Kinmond, M. Brodsky (1976)
Amorphous silicon p‐n junctionApplied Physics Letters, 28
-
Xiaopeng Zheng, J. Troughton, Nicola Gasparini, Yuanbao Lin, Mingyang Wei, Yi Hou, Jiakai Liu, Kepeng Song, Zhaolai Chen, Chen Yang, Bekir Turedi, Abdullah Alsalloum, Jun Pan, Jie Chen, Ayan Zhumekenov, T. Anthopoulos, Yu Han, Derya Baran, O. Mohammed, E. Sargent, O. Bakr (2019)
Quantum Dots Supply Bulk- and Surface-Passivation Agents for Efficient and Stable Perovskite Solar CellsJoule
-
T. Shimizu (2004)
Staebler-Wronski Effect in Hydrogenated Amorphous Silicon and Related Alloy FilmsJapanese Journal of Applied Physics, 43
-
Steffen Roland, S. Neubert, S. Albrecht, B. Stannowski, Mark Seger, A. Facchetti, R. Schlatmann, B. Rech, D. Neher (2015)
Hybrid Organic/Inorganic Thin‐Film Multijunction Solar Cells Exceeding 11% Power Conversion EfficiencyAdvanced Materials, 27
-
D. Staebler, C. Wronski (1977)
Reversible conductivity changes in discharge‐produced amorphous SiApplied Physics Letters, 31
-
J. Troughton, Marios Neophytou, Nicola Gasparini, A. Seitkhan, Furkan Isikgor, Xin Song, Yen‐Hung Lin, Tong Liu, H. Faber, E. Yengel, J. Kosco, M. Oszajca, Benjamin Hartmeier, M. Rossier, N. Lüchinger, L. Tsetseris, H. Snaith, S. Wolf, T. Anthopoulos, I. McCulloch, Derya Baran (2020)
A universal solution processed interfacial bilayer enabling ohmic contact in organic and hybrid optoelectronic devicesEnergy & Environmental Science
-
Renxing Lin, K. Xiao, Zhengyuan Qin, Qiaolei Han, Chunfeng Zhang, Mingyang Wei, M. Saidaminov, Yuan Gao, Jun Xu, M. Xiao, Aidong Li, Jia Zhu, E. Sargent, H. Tan (2019)
Monolithic all-perovskite tandem solar cells with 24.8% efficiency exploiting comproportionation to suppress Sn(ii) oxidation in precursor inkNature Energy, 4
-
S. Albrecht, B. Grootoonk, S. Neubert, Steffen Roland, J. Wördenweber, M. Meier, R. Schlatmann, A. Gordijn, D. Neher (2014)
Efficient hybrid inorganic/organic tandem solar cells with tailored recombination contactsSolar Energy Materials and Solar Cells, 127
-
R. Chittick, J. Alexander, H. Sterling (1969)
The Preparation and Properties of Amorphous SiliconJournal of The Electrochemical Society, 116
-
Xin Song, Nicola Gasparini, L. Ye, H. Yao, Jianhui Hou, H. Ade, Derya Baran (2018)
Controlling Blend Morphology for Ultrahigh Current Density in Nonfullerene Acceptor-Based Organic Solar CellsACS energy letters
-
F. Dahou, L. Cattin, J. Garnier, J. Ouerfelli, M. Morsli, G. Louarn, A. Bouteville, A. Khellil, J. Bernède (2010)
Influence of anode roughness and buffer layer nature on organic solar cells performanceThin Solid Films, 518
-
Erkan Aydin, T. Allen, M. Bastiani, Lujia Xu, J. Ávila, M. Salvador, E. Kerschaver, S. Wolf (2020)
Interplay between temperature and bandgap energies on the outdoor performance of perovskite/silicon tandem solar cellsNature Energy, 5
-
Lingxian Meng, Yamin Zhang, Xiangjian Wan, Chenxi Li, Xin Zhang, Yanbo Wang, Xin Ke, Zuo Xiao, Liming Ding, Ruoxi Xia, H. Yip, Yong Cao, Yongsheng Chen (2018)
Organic and solution-processed tandem solar cells with 17.3% efficiencyScience, 361
-
Leiping Duan, Haimang Yi, Yu Zhang, F. Haque, Cheng Xu, A. Uddin (2019)
Comparative study of light- and thermal-induced degradation for both fullerene and non-fullerene-based organic solar cellsSustainable Energy & Fuels
-
Taehee Kim, Jun-Hong Jeon, Seunghee Han, Doh-Kwon Lee, Honggon Kim, Wonmok Lee, Kyungkon Kim (2011)
Organic-inorganic hybrid tandem multijunction photovoltaics with extended spectral responseApplied Physics Letters, 98
-
Derya Baran, R. Ashraf, David Hanifi, Maged Abdelsamie, Nicola Gasparini, J. Röhr, S. Holliday, Andrew Wadsworth, Sarah Lockett, Marios Neophytou, C. Emmott, J. Nelson, C. Brabec, A. Amassian, A. Salleo, T. Kirchartz, J. Durrant, I. McCulloch (2017)
Reducing the efficiency-stability-cost gap of organic photovoltaics with highly efficient and stable small molecule acceptor ternary solar cells.Nature materials, 16 3
-
H. Yao, Yong Cui, Runnan Yu, B. Gao, Hao Zhang, Jianhui Hou (2017)
Design, Synthesis, and Photovoltaic Characterization of a Small Molecular Acceptor with an Ultra-Narrow Band Gap.Angewandte Chemie, 56 11
-
Jeehwan Kim, Z. Hong, Gang Li, Tze‐Bin Song, J. Chey, Y. Lee, J. You, Chun‐Chao Chen, D. Sadana, Yang Yang (2015)
10.5% efficient polymer and amorphous silicon hybrid tandem photovoltaic cellNature Communications, 6
-
J. Seo, Dong-Ho Kim, Se-hun Kwon, Myungkwan Song, Min-Seung Choi, S. Ryu, Hyungkeun Lee, Y. Park, J. Kwon, K. Nam, Y. Jeong, Jaewook Kang, Chang-Su Kim (2012)
High Efficiency Inorganic/Organic Hybrid Tandem Solar CellsAdvanced Materials, 24
-
C. Nielsen, S. Holliday, Hung-Yang Chen, Samuel Cryer, I. McCulloch (2015)
Non-Fullerene Electron Acceptors for Use in Organic Solar CellsAccounts of Chemical Research, 48
-
M. Bastiani, A. Subbiah, Erkan Aydin, Furkan Isikgor, T. Allen, S. Wolf (2020)
Recombination junctions for efficient monolithic perovskite-based tandem solar cells: physical principles, properties, processing and prospectsMaterials horizons, 7
-
heterojunctions, Yu (2001)
Polymer photovoltaic cells - enhanced efficiencies via a network of internal donor-acceptor heterojunctions -
(1963)
Joule 2019 -
Shenkun Xie, Ruoxi Xia, Zhen Chen, Jingjing Tian, Lei Yan, Minrun Ren, Zhenchao Li, Guichuan Zhang, Qifan Xue, H. Yip, Yong Cao (2020)
Efficient monolithic perovskite/organic tandem solar cells and their efficiency potentialNano Energy, 78
-
O. Kluth, B. Rech, L. Houben, S. Wieder, G. Schöpe, C. Beneking, H. Wagner, A. Loffl, H. Schock (1999)
Texture etched ZnO:Al coated glass substrates for silicon based thin film solar cellsThin Solid Films, 351
-
Xiang Xu, Jingyang Xiao, Guichuan Zhang, Longfu Wei, Xuechen Jiao, H. Yip, Yong Cao (2020)
Interface-enhanced organic solar cells with extrapolated T80 lifetimes of over 20 years.Science bulletin, 65 3
-
M. Hossain, Wayesh Qarony, Sainan Ma, Longhui Zeng, D. Knipp, Y. Tsang (2019)
Perovskite/Silicon Tandem Solar Cells: From Detailed Balance Limit Calculations to Photon ManagementNano-Micro Letters, 11
-
P. Docampo, J. Ball, M. Darwich, G. Eperon, H. Snaith (2013)
Efficient organometal trihalide perovskite planar-heterojunction solar cells on flexible polymer substratesNature Communications, 4
-
M. Salim, R. Nekovei, R. Jeyakumar (2020)
Organic tandem solar cells with 18.6% efficiencySolar Energy, 198
-
W. Shockley, H. Queisser (1961)
Detailed Balance Limit of Efficiency of p‐n Junction Solar CellsJournal of Applied Physics, 32
-
A. Seitkhan, Marios Neophytou, Rawad Hallani, J. Troughton, Nicola Gasparini, H. Faber, E. Abou‐hamad, M. Hedhili, G. Harrison, Derya Baran, L. Tsetseris, T. Anthopoulos, I. McCulloch (2020)
A Multilayered Electron Extracting System for Efficient Perovskite Solar CellsAdvanced Functional Materials, 30
-
M. Upama, M. Wright, Md Mahmud, N. Elumalai, Arman Soufiani, Dian Wang, Cheng Xu, A. Uddin (2017)
Photo-degradation of high efficiency fullerene-free polymer solar cells.Nanoscale, 9 47
-
Qishi Liu, Yufan Jiang, Ke Jin, Jianqiang Qin, Jingui Xu, Wenting Li, Ji Xiong, Jinfeng Liu, Zuo Xiao, K. Sun, Shangfeng Yang, Xiaotao Zhang, Liming Ding (2020)
18% Efficiency organic solar cells.Science bulletin, 65 4
-
Yi Hou, Erkan Aydin, M. Bastiani, C. Xiao, Furkan Isikgor, D. Xue, Bin Chen, Hao Chen, B. Bahrami, A. Chowdhury, Andrew Johnston, S. Baek, Ziru Huang, Mingyang Wei, Yitong Dong, J. Troughton, Rawan Jalmood, Alessandro Mirabelli, Thomas Allen, E. Kerschaver, M. Saidaminov, Derya Baran, Q. Qiao, K. Zhu, S. Wolf, E. Sargent (2020)
Efficient tandem solar cells with solution-processed perovskite on textured crystalline siliconScience, 367
-
C. Brabec, M. Heeney, I. McCulloch, J. Nelson (2011)
Influence of blend microstructure on bulk heterojunction organic photovoltaic performance.Chemical Society reviews, 40 3
-
J. Hubin, A. Shah, E. Sauvain (1992)
Effects of dangling bonds on the recombination function in amorphous semiconductorsPhilosophical Magazine Letters, 66
-
Zaifei Ma, Zheng Tang, Ergang Wang, M. Andersson, O. Inganäs, Fengling Zhang (2012)
Influences of Surface Roughness of ZnO Electron Transport Layer on the Photovoltaic Performance of Organic Inverted Solar CellsJournal of Physical Chemistry C, 116
- Publisher
- Wiley
- Copyright
- © 2021 Wiley‐VCH GmbH
- ISSN
- 1614-6832
- eISSN
- 1614-6840
- DOI
- 10.1002/aenm.202100166
- Publisher site
- See Article on Publisher Site
Abstract
Monolithically stacked tandem solar cells present opportunities to absorb more of the sun's radiation while reducing the degree of energetic loss through thermalization. In these applications, the bandgap of the tandem's constituent subcells must be carefully adjusted so as to avoid competition for photons. Organic photovoltaics based on nonfullerene acceptors (NFAs) have recently exploded in popularity owing to the ease with which their electrical and optical properties can be tuned through chemistry. Here, highly complementary and efficient 2‐terminal tandem solar cells are reported based on a wide bandgap amorphous silicon absorber, and a narrow bandgap NFA bulk‐heterojunction with power conversion efficiencies (PCEs) exceeding 15%. Interface engineering of this tandem device allows for high PCEs across a wide range of light intensities both above and below “1 sun.” Furthermore, the addition of an inorganic silicon subcell enhances the operational stability of the tandem by reducing the light‐stress experienced by the bulk heterojunction, resolving a long‐standing stumbling block in organic photovoltaic research.
Journal
Advanced Energy Materials – Wiley
Published: Jun 1, 2021
Keywords: ; ; ; ;