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N-type conjugated polymer as efficient electron transport layer for planar inverted perovskite solar cells with power conversion efficiency of 20.86%

Authors
Chen, WeiShi, YongqiangWang, YangFeng, XiyuanDjurisic, Aleksandra B.Woo, Han YoungGuo, XugangHe, Zhubing
Issue Date
2월-2020
Publisher
ELSEVIER
Keywords
N-type conjugated polymer; Electron transport materials; Inverted perovskite solar cell; Long-term stability
Citation
NANO ENERGY, v.68
Indexed
SCIE
SCOPUS
Journal Title
NANO ENERGY
Volume
68
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/57879
DOI
10.1016/j.nanoen.2019.104363
ISSN
2211-2855
Abstract
Fullerene and its derivatives are commonly used as electron transport layers (ETLs) in inverted perovskite solar cells (PSCs), since they show suitable band alignment and good electron mobility. However, fullerene-based ETLs typically result in low open-circuit voltages due to the interfacial defects, and they also exhibit poor photochemical and thermal stability. Consequently, there is great interest in the development of novel ETLs for high-performance inverted PSCs. In this work, two n-type polymers PBTI and PDTzTI are utilized as ETL in inverted PSCs, which are based on bithiophene imide and thienylthiazole imide, respectively. Due to its high electron mobility, well matched energy level alignment together with the passivation of interfacial traps/defects, device with the PDTzTI ETL demonstrates a best power conversion efficiency of 20.86%, which outperform those with PBTI and PCBM ETLs. Owning to the highly hydrophobic properties as well as the mobile ion blocking capability of polymer, PDTzTI ETL based device also exhibits excellent long-term and operational device stability as compared with the PCBM one. Our results demonstrate that rational selection of ETLs has great impact on the device efficiency and stability in inverted planar PSCs and that novel n-type polymer might be ideal alternative ETL in inverted planar PSCs.
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