Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells
Carbon-based perovskite solar cells (C-PSCs) have attracted worldwide attention in the research community due to their low-cost fabrication and improved stability compared with conventional PSCs. However, the cell reproducibility and inconsistency of perovskite infiltration into micrometer-thick mes...
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sg-ntu-dr.10356-1634812022-12-07T06:22:56Z Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells Thangavel, Nivethaa R. Koh, Teck Ming Chee, Zhong Quan Tay, Darrell Jun Jie Lee, Ming Jun Mhaisalkar, Subodh Gautam Ager, Joel W. Mathews, Nripan School of Materials Science and Engineering Interdisciplinary Graduate School (IGS) Research Techno Plaza Energy Research Institute @ NTU (ERI@N) Engineering::Materials Carbon Low-Temperature Processing Carbon-based perovskite solar cells (C-PSCs) have attracted worldwide attention in the research community due to their low-cost fabrication and improved stability compared with conventional PSCs. However, the cell reproducibility and inconsistency of perovskite infiltration into micrometer-thick mesoscopic devices remain an issue for cell fabrication. Furthermore, full perovskite crystallization in the screen-printed device without any perovskite formed on the mesoporous carbon electrode is always challenging. The presence of protruding perovskite crystals on C-PSCs is found, which initially leads to the hydrolysis of perovskites under humid condition and eventually accelerates the degradation. Herein, a low-temperature (low-T) carbon layer is incorporated through a scalable screen-printing technique on top of C-PSCs. C-PSCs coated with low-T carbon show good moisture (70% relative humidity) and thermal (65 and 85 °C) stability over 3,250 and 1,000 h, respectively, without any physical encapsulation. The device also shows high stability under continuous illumination at its maximum power point for 175 h. This hydrophobic and conductive carbon layer not only protects the exposed perovskite crystals from moisture but also enhances the photovoltaic performance of C-PSCs with major fill factor and open-circuit voltage improvement. Ministry of Education (MOE) National Research Foundation (NRF) The authors would like to acknowledge funding from the Singapore National Research Foundation through the Intra-CREATE Collaborative Grant (NRF2018-ITC001-001) and MOE Tier 2 project MOE2019-T2-2-097. 2022-12-07T06:22:56Z 2022-12-07T06:22:56Z 2022 Journal Article Thangavel, N. R., Koh, T. M., Chee, Z. Q., Tay, D. J. J., Lee, M. J., Mhaisalkar, S. G., Ager, J. W. & Mathews, N. (2022). Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells. Energy Technology, 10(11), 2200559-. https://dx.doi.org/10.1002/ente.202200559 2194-4296 https://hdl.handle.net/10356/163481 10.1002/ente.202200559 2-s2.0-85137435687 11 10 2200559 en NRF2018-ITC001-001 MOE2019-T2-2-097 Energy Technology © 2022 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Materials Carbon Low-Temperature Processing Thangavel, Nivethaa R. Koh, Teck Ming Chee, Zhong Quan Tay, Darrell Jun Jie Lee, Ming Jun Mhaisalkar, Subodh Gautam Ager, Joel W. Mathews, Nripan Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells |
| description |
Carbon-based perovskite solar cells (C-PSCs) have attracted worldwide attention in the research community due to their low-cost fabrication and improved stability compared with conventional PSCs. However, the cell reproducibility and inconsistency of perovskite infiltration into micrometer-thick mesoscopic devices remain an issue for cell fabrication. Furthermore, full perovskite crystallization in the screen-printed device without any perovskite formed on the mesoporous carbon electrode is always challenging. The presence of protruding perovskite crystals on C-PSCs is found, which initially leads to the hydrolysis of perovskites under humid condition and eventually accelerates the degradation. Herein, a low-temperature (low-T) carbon layer is incorporated through a scalable screen-printing technique on top of C-PSCs. C-PSCs coated with low-T carbon show good moisture (70% relative humidity) and thermal (65 and 85 °C) stability over 3,250 and 1,000 h, respectively, without any physical encapsulation. The device also shows high stability under continuous illumination at its maximum power point for 175 h. This hydrophobic and conductive carbon layer not only protects the exposed perovskite crystals from moisture but also enhances the photovoltaic performance of C-PSCs with major fill factor and open-circuit voltage improvement. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Thangavel, Nivethaa R. Koh, Teck Ming Chee, Zhong Quan Tay, Darrell Jun Jie Lee, Ming Jun Mhaisalkar, Subodh Gautam Ager, Joel W. Mathews, Nripan |
| format |
Article |
| author |
Thangavel, Nivethaa R. Koh, Teck Ming Chee, Zhong Quan Tay, Darrell Jun Jie Lee, Ming Jun Mhaisalkar, Subodh Gautam Ager, Joel W. Mathews, Nripan |
| author_sort |
Thangavel, Nivethaa R. |
| title |
Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells |
| title_short |
Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells |
| title_full |
Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells |
| title_fullStr |
Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells |
| title_full_unstemmed |
Printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells |
| title_sort |
printable low-temperature carbon for highly efficient and stable mesoscopic perovskite solar cells |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163481 |
| _version_ |
1753801173443280896 |