Recent Progress and Challenges toward Highly Stable Nonfullerene Acceptor‐Based Organic Solar Cells

Recent Progress and Challenges toward Highly Stable Nonfullerene Acceptor‐Based Organic Solar Cells

Organic solar cells (OSCs) based on nonfullerene acceptors (NFAs) have made significant breakthrough in their device performance, now achieving a power conversion efficiency of ≈18% for single junction devices, driven by the rapid development in their molecular design and device engineering in recen...

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Bibliographic Details
Published in:Advanced energy materials Vol. 11; no. 5
Main Authors: Wang, Yiwen, Lee, Jinho, Hou, Xueyan, Labanti, Chiara, Yan, Jun, Mazzolini, Eva, Parhar, Amber, Nelson, Jenny, Kim, Ji‐Seon, Li, Zhe
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 01-02-2021
Subjects:
Commercialization
Control stability
Degradation
device engineering
Energy conversion efficiency
Interface stability
ISOS standards
molecular design
Morphology
nonfullerene solar cells
organic photovoltaics
Photovoltaic cells
Solar cells
stability
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Summary:Organic solar cells (OSCs) based on nonfullerene acceptors (NFAs) have made significant breakthrough in their device performance, now achieving a power conversion efficiency of ≈18% for single junction devices, driven by the rapid development in their molecular design and device engineering in recent years. However, achieving long‐term stability remains a major challenge to overcome for their commercialization, due in large part to the current lack of understanding of their degradation mechanisms as well as the design rules for enhancing their stability. In this review, the recent progress in understanding the degradation mechanisms and enhancing the stability of high performance NFA‐based OSCs is a specific focus. First, an overview of the recent advances in the molecular design and device engineering of several classes of high performance NFA‐based OSCs for various targeted applications is provided, before presenting a critical review of the different degradation mechanisms identified through photochemical‐, photo‐, and morphological degradation pathways. Potential strategies to address these degradation mechanisms for further stability enhancement, from molecular design, interfacial engineering, and morphology control perspectives, are also discussed. Finally, an outlook is given highlighting the remaining key challenges toward achieving the long‐term stability of NFA‐OSCs. Nonfullerene acceptors dominate organic solar cell research due to their promising high device efficiencies. However, key challenges for achieving high stability in commercially viable devices still remain. In this review, recent progress and challenges toward stable organic solar cells are discussed correlating molecular design and device engineering to device stability.
ISSN:1614-6832
1614-6840
DOI:10.1002/aenm.202003002