Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics
Recently, in the arena of finding substitutes for lead-containing perovskite solar cells, the oldest selenium solar cells (SSCs) have been reconsidered by many scientists due to their suitable energy level structure and less-toxic nature. A lot of research efforts have been made to improve the effic...
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sg-ntu-dr.10356-1556132022-03-16T06:08:21Z Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics Liu, Wenbo Yu, Fei Fan, Weijun Zhang, Qichun School of Materials Science and Engineering School of Electrical and Electronic Engineering Engineering::Materials Engineering::Electrical and electronic engineering Selenium (Se) Bars Selenium Solar Cells Recently, in the arena of finding substitutes for lead-containing perovskite solar cells, the oldest selenium solar cells (SSCs) have been reconsidered by many scientists due to their suitable energy level structure and less-toxic nature. A lot of research efforts have been made to improve the efficiency of SSCs through seeking suitable substrates and modifying the process of Se crystallization. However, little attention has been paid to investigating the stability of SSCs. In addition, one crucial point that is neglected by researchers could be the potential applications of low-cost SSCs in complicated and tough environments, owing to the intrinsic physicochemical resistance of the Se material. To address these issues, in this research, SSCs with an elaborately designed architecture have been presented, and the highest efficiency (3.7%) among SSCs with organic hole transport layers was achieved. Additionally, a dozen of P3HT-based SSCs were demonstrated to maintain 92% efficiency after more than 1500 hours. The favorable long-term stability of the SSCs allowed us to carefully analyze the changes in each dynamic parameter during aging and helped explore the factors that affect the device behaviors. These results would pave the way for the application of the ultra-stable SSCs in harsh conditions. Ministry of Education (MOE) Q. Z. acknowledges financial support from AcRF Tier 1 (RG 111/17, RG 2/17, RG 114/16, RG 8/16) and Tier 2 (MOE 2017-T2-1-021 and MOE 2018-T2-1-070), Singapore. 2022-03-11T05:46:50Z 2022-03-11T05:46:50Z 2020 Journal Article Liu, W., Yu, F., Fan, W. & Zhang, Q. (2020). Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics. Physical Chemistry Chemical Physics, 22(26), 14838-14845. https://dx.doi.org/10.1039/d0cp02367a 1463-9076 https://hdl.handle.net/10356/155613 10.1039/d0cp02367a 32579632 2-s2.0-85087930345 26 22 14838 14845 en RG 111/17 RG 2/17 RG 114/16 RG 8/16 MOE 2017-T2-1-021 MOE 2018-T2-1-070 Physical Chemistry Chemical Physics © 2020 The Owner Societies. All rights reserved. |
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Engineering::Materials Engineering::Electrical and electronic engineering Selenium (Se) Bars Selenium Solar Cells |
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Engineering::Materials Engineering::Electrical and electronic engineering Selenium (Se) Bars Selenium Solar Cells Liu, Wenbo Yu, Fei Fan, Weijun Zhang, Qichun Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics |
| description |
Recently, in the arena of finding substitutes for lead-containing perovskite solar cells, the oldest selenium solar cells (SSCs) have been reconsidered by many scientists due to their suitable energy level structure and less-toxic nature. A lot of research efforts have been made to improve the efficiency of SSCs through seeking suitable substrates and modifying the process of Se crystallization. However, little attention has been paid to investigating the stability of SSCs. In addition, one crucial point that is neglected by researchers could be the potential applications of low-cost SSCs in complicated and tough environments, owing to the intrinsic physicochemical resistance of the Se material. To address these issues, in this research, SSCs with an elaborately designed architecture have been presented, and the highest efficiency (3.7%) among SSCs with organic hole transport layers was achieved. Additionally, a dozen of P3HT-based SSCs were demonstrated to maintain 92% efficiency after more than 1500 hours. The favorable long-term stability of the SSCs allowed us to carefully analyze the changes in each dynamic parameter during aging and helped explore the factors that affect the device behaviors. These results would pave the way for the application of the ultra-stable SSCs in harsh conditions. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Liu, Wenbo Yu, Fei Fan, Weijun Zhang, Qichun |
| format |
Article |
| author |
Liu, Wenbo Yu, Fei Fan, Weijun Zhang, Qichun |
| author_sort |
Liu, Wenbo |
| title |
Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics |
| title_short |
Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics |
| title_full |
Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics |
| title_fullStr |
Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics |
| title_full_unstemmed |
Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics |
| title_sort |
improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155613 |
| _version_ |
1728433402426687488 |