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19.31% binary organic solar cell and low non-radiative recombination enabled by non-monotonic intermediate state transition

Engineering and Technology

19.31% binary organic solar cell and low non-radiative recombination enabled by non-monotonic intermediate state transition

J. Fu, P. W. K. Fong, et al.

Discover an innovative strategy to boost organic solar cell efficiency! This research, conducted by Jiehao Fu, Patrick W. K. Fong, Heng Liu, and their team, utilizes a novel non-monotonic intermediate state manipulation approach, achieving a record efficiency of 19.31%. Don't miss how this method reduces non-radiative recombination loss, paving the way for advanced solar technology.

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Playback language: English
Abstract
This paper presents a novel non-monotonic intermediate state manipulation (ISM) strategy for enhancing the efficiency of organic solar cells (OSCs). By employing 1,3,5-trichlorobenzene (TCB) as a crystallization regulator, the researchers optimized the film crystallization process and regulated the self-organization of the bulk-heterojunction (BHJ) in a non-monotonic manner—first enhancing and then relaxing molecular aggregation. This approach successfully reduced non-radiative recombination loss, leading to a record binary organic solar cell efficiency of 19.31% (18.93% certified) with low non-radiative recombination loss of 0.190 eV in PM6:BTP-eC9 OSCs and even lower loss of 0.168 eV in PM1:BTP-eC9 OSCs (19.10% efficiency). The ISM strategy shows promise for improving future OSC technology.
Publisher
Nature Communications
Published On
Mar 30, 2023
Authors
Jiehao Fu, Patrick W. K. Fong, Heng Liu, Chieh-Szu Huang, Xinhui Lu, Shirong Lu, Maged Abdelsamie, Tim Kodalle, Carolin M. Sutter-Fella, Yang Yang, Gang Li
Tags
organic solar cells
non-monotonic strategy
efficiency
crystallization
bulk-heterojunction
non-radiative recombination
PHJ

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