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Correlating Electronic Structure and Device Physics with Mixing Region Morphology in High‐Efficiency Organic Solar Cells.

Authors :
Leng, Shifeng
Hao, Tianyu
Zhou, Guanqing
Zhu, Lei
Zhong, Wenkai
Yang, Yankang
Zhang, Ming
Xu, Jinqiu
Zhan, Junzhe
Zhou, Zichun
Chen, Jiajun
Lu, Shirong
Tang, Zheng
Shi, Zhiwen
Zhu, Haiming
Zhang, Yongming
Liu, Feng
Source :
Advanced Science; 2/24/2022, Vol. 9 Issue 6, p1-9, 9p
Publication Year :
2022

Abstract

The donor/acceptor interaction in non‐fullerene organic photovoltaics leads to the mixing domain that dictates the morphology and electronic structure of the blended thin film. Initiative effort is paid to understand how these domain properties affect the device performances on high‐efficiency PM6:Y6 blends. Different fullerenes acceptors are used to manipulate the feature of mixing domain. It is seen that a tight packing in the mixing region is critical, which could effectively enhance the hole transfer and lead to the enlarged and narrow electron density of state (DOS). As a result, short‐circuit current (JSC) and fill factor (FF) are improved. The distribution of DOS and energy levels strongly influences open‐circuit voltage (VOC). The raised filling state of electron Fermi level is seen to be key in determining device VOC. Energy disorder is found to be a key factor to energy loss, which is highly correlated with the intermolecular distance in the mixing region. A 17.53% efficiency is obtained for optimized ternary devices, which is the highest value for similar systems. The current results indicate that a delicate optimization of the mixing domain property is an effective route to improve the VOC, JSC, and FF simultaneously, which provides new guidelines for morphology control toward high‐performance organic solar cells. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
21983844
Volume :
9
Issue :
6
Database :
Complementary Index
Journal :
Advanced Science
Publication Type :
Academic Journal
Accession number :
155435843
Full Text :
https://doi.org/10.1002/advs.202104613