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Article Abstract
The dielectric constant ( ) of non-fullerene acceptors is a key parameter in organic solar cells, significantly influencing exciton dissociation efficiency and charge recombination dynamics. Substituting bromine, characterized by moderate electronegativity and high polarizability, at the -benzodipyrrole core of acceptors effectively modulates their optical properties, molecular packing, and dielectric constants. The asymmetric monobrominated CBrB-Cl acceptor exhibits a more red-shifted absorption spectrum, enhanced crystallinity, and a higher of 3.92, contributing to a high efficiency of 17.69% in the inverted PM6:CBrB-Cl device. Further, a selenium-incorporated CB-Se acceptor was selected to form a well-matched dual asymmetric acceptor alloy. The combination of heavy bromine and selenium atoms in the CBrB-Cl:CB-Se alloy increase the of the PM6:CBrB-Cl:CB-Se blend film to 4.23, which in turn reduces exciton binding energy, promotes efficient charge separation, and suppresses charge recombination, as evidenced by a faster charge separation time ( = 0.39 ps) and a longer charge carrier lifetime ( = 309 ps). The inverted PM6:CBrB-Cl:CB-Se device achieved a high PCE of 18.33%, which is considered to be one of the highest among inverted OPV devices. This work reveals that bromine/selenium substitution enhances the dielectric constant and crystalline packing, thereby advancing molecular design and improving device performance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12403024 | PMC |
| http://dx.doi.org/10.1039/d5sc04976h | DOI Listing |
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