Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer
The recent emergence of non-fullerene acceptors (NFAs) has energized the field of organic photodiodes (OPDs) and made major breakthroughs in their critical photoelectric characteristics. Yet, stabilizing inverted NF-OPDs remains challenging because of the intrinsic degradation induced by improper in...
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sg-ntu-dr.10356-1715162023-11-03T15:46:40Z Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer Xiao, Jianhua Wang, Yang Yuan, Liu Long, Yin Jiang, Zhi Liu, Qingxia Gu, Deen Li, Weizhi Tai, Huiling Jiang, Yadong School of Materials Science and Engineering Innovative Centre for Flexible Devices Engineering::Materials Cathode Interfacial Layers Interface Compatibilities The recent emergence of non-fullerene acceptors (NFAs) has energized the field of organic photodiodes (OPDs) and made major breakthroughs in their critical photoelectric characteristics. Yet, stabilizing inverted NF-OPDs remains challenging because of the intrinsic degradation induced by improper interfaces. Herein, a tin ion-chelated polyethyleneimine ethoxylated (denoted as PEIE-Sn) is proposed as a generic cathode interfacial layer (CIL) of NF-OPDs. The chelation between tin ions and nitrogen/oxygen atoms in PEIE-Sn contributes to the interface compatibility with efficient NFAs. The PEIE-Sn can effectively endow the devices with optimized cascade alignment and reduced interface defects. Consequently, the PEIE-Sn-OPD exhibits properties of anti-environmental interference, suppressed dark current, and accelerated interfacial electron extraction and transmission. As a result, the unencapsulated PEIE-Sn-OPD delivers high specific detection and fast response speed and shows only slight attenuation in photoelectric performance after exposure to air, light, and heat. Its superior performance outperforms the incumbent typical counterparts (ZnO, SnO2 , and PEIE as the CILs) from metrics of both stability and photoelectric characteristics. This finding suggests a promising strategy for stabilizing NF-OPDs by designing appropriate interface layers. Published version The authors acknowledge the National Science Fund for Distinguished Young Scholars (Grant No. 62225106), the National Natural Science Foundation of China (Grant Nos. U19A2070 and 22105032), the National Science Funds for Excellent Young Scholars of China (Grant No. 61822106),the Sichuan Science and Technology Program (No. 2021YFH0186), and the Science and Technology Innovation Seedling Project of Sichuan Province (Grant No. 2021062). 2023-10-30T01:58:53Z 2023-10-30T01:58:53Z 2023 Journal Article Xiao, J., Wang, Y., Yuan, L., Long, Y., Jiang, Z., Liu, Q., Gu, D., Li, W., Tai, H. & Jiang, Y. (2023). Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer. Advanced Science, 10(28), 2302976-. https://dx.doi.org/10.1002/advs.202302976 2198-3844 https://hdl.handle.net/10356/171516 10.1002/advs.202302976 37541299 2-s2.0-85166568810 28 10 2302976 en Advanced Science © 2023 The Authors. Advanced Science published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering::Materials Cathode Interfacial Layers Interface Compatibilities Xiao, Jianhua Wang, Yang Yuan, Liu Long, Yin Jiang, Zhi Liu, Qingxia Gu, Deen Li, Weizhi Tai, Huiling Jiang, Yadong Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer |
| description |
The recent emergence of non-fullerene acceptors (NFAs) has energized the field of organic photodiodes (OPDs) and made major breakthroughs in their critical photoelectric characteristics. Yet, stabilizing inverted NF-OPDs remains challenging because of the intrinsic degradation induced by improper interfaces. Herein, a tin ion-chelated polyethyleneimine ethoxylated (denoted as PEIE-Sn) is proposed as a generic cathode interfacial layer (CIL) of NF-OPDs. The chelation between tin ions and nitrogen/oxygen atoms in PEIE-Sn contributes to the interface compatibility with efficient NFAs. The PEIE-Sn can effectively endow the devices with optimized cascade alignment and reduced interface defects. Consequently, the PEIE-Sn-OPD exhibits properties of anti-environmental interference, suppressed dark current, and accelerated interfacial electron extraction and transmission. As a result, the unencapsulated PEIE-Sn-OPD delivers high specific detection and fast response speed and shows only slight attenuation in photoelectric performance after exposure to air, light, and heat. Its superior performance outperforms the incumbent typical counterparts (ZnO, SnO2 , and PEIE as the CILs) from metrics of both stability and photoelectric characteristics. This finding suggests a promising strategy for stabilizing NF-OPDs by designing appropriate interface layers. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Xiao, Jianhua Wang, Yang Yuan, Liu Long, Yin Jiang, Zhi Liu, Qingxia Gu, Deen Li, Weizhi Tai, Huiling Jiang, Yadong |
| format |
Article |
| author |
Xiao, Jianhua Wang, Yang Yuan, Liu Long, Yin Jiang, Zhi Liu, Qingxia Gu, Deen Li, Weizhi Tai, Huiling Jiang, Yadong |
| author_sort |
Xiao, Jianhua |
| title |
Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer |
| title_short |
Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer |
| title_full |
Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer |
| title_fullStr |
Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer |
| title_full_unstemmed |
Stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer |
| title_sort |
stabilizing non-fullerene organic photodiodes through interface engineering enabled by a tin ion-chelated polymer |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171516 |
| _version_ |
1781793884878143488 |