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양창덕

Yang, Changduk
Advanced Tech-Optoelectronic Materials Synthesis Lab.
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Dopant-free polymeric hole transport materials for efficient CsPbI2Br perovskite cells with a fill factor exceeding 84%

Author(s)
Wang, PangWang, HuiJeong, MingyuLee, Sang MyeonDu, BaocaiMao, YuchaoYe, FanghaoZhang, HuijunLi, DonghuiLiu, DanYang, ChangdukWang, Tao
Issued Date
2020-07
DOI
10.1039/d0tc01892a
URI
https://scholarworks.unist.ac.kr/handle/201301/36810
Fulltext
https://pubs.rsc.org/en/content/articlelanding/2020/TC/D0TC01892A#!divAbstract
Citation
JOURNAL OF MATERIALS CHEMISTRY C, v.8, no.25, pp.8507 - 8514
Abstract
Inorganic perovskite solar cells (PSCs) have attracted extensive attention in recent years due to their excellent thermal stability. The CsPbI2Br PSCs, combining the merits of stable CsPbBr(3)and efficient CsPbI3, demonstrate tremendous application potential. In this work, n-i-p structured inorganic CsPbI2Br PSCs are fabricated using ZnO as the electron transport material (ETM) and dopant-freePBDB-Tand its derivatives as the hole transport materials (HTMs). Alkylsilyl-substitutedPBDB-T(i.e.PBDB-T-Si) based devices demonstrate the best efficiency of 15.60% (compared to 14.20% of thePBDB-Tbased reference device) with an ultrahigh fill factor over 84% due to the deep highest occupied molecular orbital energy levels, superior hole mobility and quasi-ohmic contact characteristics. However, fluorine- and chlorine-substitutedPBDB-T(i.e.PBDB-T-2FandPBDB-T-2Cl) based devices exhibit enhanced open circuit voltages but decreased short circuit current densities due to the unbalanced hole extraction and large leakage current at the interface, giving moderate efficiencies of 14.87 and 14.03%, respectively. Our work provides a sophisticated analysis of various optoelectronic properties of polymeric HTMs and points out that the quasi-ohmic/ohmic contact plays a critical role in determining device performance.
Publisher
ROYAL SOC CHEMISTRY
ISSN
2050-7526
Keyword
SOLAR-CELLSHALIDE PEROVSKITESPERFORMANCESTABILITYPASSIVATIONDESIGN

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