Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells
Interfacial modulation utilizing functional materials is proven to be crucial for obtaining high photovoltaic performance in lead halide perovskite solar cells (PSCs). This study investigates, for the first time, the utilization of a pyrene-based sp2 carbon-conjugated covalent organic framework (sp2...
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sg-ntu-dr.10356-1824952025-02-05T00:57:23Z Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells Abuzeid, Hesham R. Tay, Darrell Jun Jie Febriansyah, Benny Kanwat, Anil Salim, Teddy Zhumekenov, Ayan A. Pullarkat, Sumod A. Mathews, Nripan School of Materials Science and Engineering Interdisciplinary Graduate School (IGS) School of Chemistry, Chemical Engineering and Biotechnology Engineering Covalent organic frameworks Defects passivation Interfacial modulation utilizing functional materials is proven to be crucial for obtaining high photovoltaic performance in lead halide perovskite solar cells (PSCs). This study investigates, for the first time, the utilization of a pyrene-based sp2 carbon-conjugated covalent organic framework (sp2c-COF) as an interfacial layer in inverted PSCs. Functionalized with cyano (-CN) Lewis base groups, the sp2c-COF exhibits a dual effect, simultaneously passivating both the NiOx and the perovskite layers. Detailed characterization results highlight the role of sp2c-COF in reducing the Ni3+ defect density in NiOx films and forming Lewis acid-base adducts with undercoordinated Pb2+ on the perovskite surfaces, thereby inhibiting interfacial redox reactions and suppressing non-radiative recombination. Moreover, sp2c-COF leads to improved crystallinity of perovskite films. Benefiting from the synergistic effects, sp2c-COF-modified devices delivered a champion efficiency of 17.64%. These findings underscore the potential of sp2c-COF as a functional interface material for PSCs, offering enhanced efficiency and stability. The study contributes to advancing the understanding and application of covalent organic frameworks in photovoltaic technologies. Ministry of Education (MOE) National Research Foundation (NRF) The project was funded by Singapore National Research Foundation through Competitive Research Program (CRP) (NRF-CRP25-2020-0002)and the Ministry of Education Singapore Tier I – RG5/23. 2025-02-05T00:57:23Z 2025-02-05T00:57:23Z 2025 Journal Article Abuzeid, H. R., Tay, D. J. J., Febriansyah, B., Kanwat, A., Salim, T., Zhumekenov, A. A., Pullarkat, S. A. & Mathews, N. (2025). Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells. Small Methods, 9(1), e2400666-. https://dx.doi.org/10.1002/smtd.202400666 2366-9608 https://hdl.handle.net/10356/182495 10.1002/smtd.202400666 39344874 2-s2.0-85205259648 1 9 e2400666 en NRF-CRP25-2020-0002 RG5/23 Small Methods © 2024 Wiley-VCH GmbH. All rights reserved. |
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Engineering Covalent organic frameworks Defects passivation |
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Engineering Covalent organic frameworks Defects passivation Abuzeid, Hesham R. Tay, Darrell Jun Jie Febriansyah, Benny Kanwat, Anil Salim, Teddy Zhumekenov, Ayan A. Pullarkat, Sumod A. Mathews, Nripan Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells |
| description |
Interfacial modulation utilizing functional materials is proven to be crucial for obtaining high photovoltaic performance in lead halide perovskite solar cells (PSCs). This study investigates, for the first time, the utilization of a pyrene-based sp2 carbon-conjugated covalent organic framework (sp2c-COF) as an interfacial layer in inverted PSCs. Functionalized with cyano (-CN) Lewis base groups, the sp2c-COF exhibits a dual effect, simultaneously passivating both the NiOx and the perovskite layers. Detailed characterization results highlight the role of sp2c-COF in reducing the Ni3+ defect density in NiOx films and forming Lewis acid-base adducts with undercoordinated Pb2+ on the perovskite surfaces, thereby inhibiting interfacial redox reactions and suppressing non-radiative recombination. Moreover, sp2c-COF leads to improved crystallinity of perovskite films. Benefiting from the synergistic effects, sp2c-COF-modified devices delivered a champion efficiency of 17.64%. These findings underscore the potential of sp2c-COF as a functional interface material for PSCs, offering enhanced efficiency and stability. The study contributes to advancing the understanding and application of covalent organic frameworks in photovoltaic technologies. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Abuzeid, Hesham R. Tay, Darrell Jun Jie Febriansyah, Benny Kanwat, Anil Salim, Teddy Zhumekenov, Ayan A. Pullarkat, Sumod A. Mathews, Nripan |
| format |
Article |
| author |
Abuzeid, Hesham R. Tay, Darrell Jun Jie Febriansyah, Benny Kanwat, Anil Salim, Teddy Zhumekenov, Ayan A. Pullarkat, Sumod A. Mathews, Nripan |
| author_sort |
Abuzeid, Hesham R. |
| title |
Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells |
| title_short |
Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells |
| title_full |
Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells |
| title_fullStr |
Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells |
| title_full_unstemmed |
Functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells |
| title_sort |
functionalized sp2 carbon-conjugated covalent organic frameworks for interfacial modulation of inverted perovskite solar cells |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182495 |
| _version_ |
1823807385996623872 |