Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks
The interface energy level alignment modulation and charge carrier transportation play an important role in the device performance of perovskite solar cells (PSCs). Herein, tailored hydrophobic metal-organic frameworks (MOFs) are employed as interfacial layers between perovskite absorbers and hole t...
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sg-ntu-dr.10356-1823152025-01-21T07:35:31Z Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks Xiao, Bo Zhang, Wenguang Xiong, Yuchen Huang, Yihuai Huang, Changkai Qian, Yongxin Shen, Guibin Basit, Abdul Luo, Yubo Li, Xin Yang, Junyou School of Electrical and Electronic Engineering Engineering Carrier management Energy level alignment regulation The interface energy level alignment modulation and charge carrier transportation play an important role in the device performance of perovskite solar cells (PSCs). Herein, tailored hydrophobic metal-organic frameworks (MOFs) are employed as interfacial layers between perovskite absorbers and hole transport layers (HTLs). The tailored MOFs feature abundant carboxylic acid groups capable of bonding with Pb2+ and organic cations, which can effectively passivate interface defects and suppress non-radiative recombination. Meanwhile, the MOF interfacial layers optimized the energy level alignment between the perovskite and the HTL, further facilitating carrier transportation. Specifically, the CsFAMA-based PSCs with a bandgap of 1.63 eV attained power conversion efficiency (PCE) of 23.06% upon modification with MOFs. Additionally, the MOFs-treated FA-based PSCs with a bandgap of 1.55 eV achieved a remarkable PCE of 24.81%, accompanied by an outstanding fill factor of 84.3% and a minimal open-circuit voltage loss of merely 0.386 V. Furthermore, the integration of the MOF interfacial layer substantially improved the moisture stability of the PSCs. The unencapsulated CsFAMA PSCs modified with MOFs retained 91.2% of their initial efficiency after 2500 h of aging under ambient conditions with 40% relative humidity (RH). This work underpins the commercialization of PSCs with diverse bandgaps. This work was supported by the National Natural Science Foundation of China (Grant no. 62304082), the National Key Research and Development Program of China (Grant no.2020YFA0715000), and the Natural Science Foundation of Hubei Province (Grant no. 2023AFB087). 2025-01-21T07:35:31Z 2025-01-21T07:35:31Z 2024 Journal Article Xiao, B., Zhang, W., Xiong, Y., Huang, Y., Huang, C., Qian, Y., Shen, G., Basit, A., Luo, Y., Li, X. & Yang, J. (2024). Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks. Advanced Functional Materials, 2417293-. https://dx.doi.org/10.1002/adfm.202417293 1616-301X https://hdl.handle.net/10356/182315 10.1002/adfm.202417293 2-s2.0-85209954448 2417293 en Advanced Functional Materials © 2024 Wiley-VCH GmbH. All rights reserved. |
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Engineering Carrier management Energy level alignment regulation |
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Engineering Carrier management Energy level alignment regulation Xiao, Bo Zhang, Wenguang Xiong, Yuchen Huang, Yihuai Huang, Changkai Qian, Yongxin Shen, Guibin Basit, Abdul Luo, Yubo Li, Xin Yang, Junyou Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks |
| description |
The interface energy level alignment modulation and charge carrier transportation play an important role in the device performance of perovskite solar cells (PSCs). Herein, tailored hydrophobic metal-organic frameworks (MOFs) are employed as interfacial layers between perovskite absorbers and hole transport layers (HTLs). The tailored MOFs feature abundant carboxylic acid groups capable of bonding with Pb2+ and organic cations, which can effectively passivate interface defects and suppress non-radiative recombination. Meanwhile, the MOF interfacial layers optimized the energy level alignment between the perovskite and the HTL, further facilitating carrier transportation. Specifically, the CsFAMA-based PSCs with a bandgap of 1.63 eV attained power conversion efficiency (PCE) of 23.06% upon modification with MOFs. Additionally, the MOFs-treated FA-based PSCs with a bandgap of 1.55 eV achieved a remarkable PCE of 24.81%, accompanied by an outstanding fill factor of 84.3% and a minimal open-circuit voltage loss of merely 0.386 V. Furthermore, the integration of the MOF interfacial layer substantially improved the moisture stability of the PSCs. The unencapsulated CsFAMA PSCs modified with MOFs retained 91.2% of their initial efficiency after 2500 h of aging under ambient conditions with 40% relative humidity (RH). This work underpins the commercialization of PSCs with diverse bandgaps. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Xiao, Bo Zhang, Wenguang Xiong, Yuchen Huang, Yihuai Huang, Changkai Qian, Yongxin Shen, Guibin Basit, Abdul Luo, Yubo Li, Xin Yang, Junyou |
| format |
Article |
| author |
Xiao, Bo Zhang, Wenguang Xiong, Yuchen Huang, Yihuai Huang, Changkai Qian, Yongxin Shen, Guibin Basit, Abdul Luo, Yubo Li, Xin Yang, Junyou |
| author_sort |
Xiao, Bo |
| title |
Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks |
| title_short |
Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks |
| title_full |
Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks |
| title_fullStr |
Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks |
| title_full_unstemmed |
Energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks |
| title_sort |
energy level alignment regulation and carrier management in perovskite solar cells with various bandgaps using tailored metal-organic frameworks |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182315 |
| _version_ |
1823108729455771648 |