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Theoretical Study of Non-Fullerene Acceptors Using End-Capped Groups with Different Electron-Withdrawing Abilities toward Efficient Organic Solar Cells

Jie Yang, Wei‐Lu Ding, Quan‐Song Li, Ze‐Sheng Li

2022The Journal of Physical Chemistry Letters40 citationsDOI

Abstract

Acceptors in organic solar cells (OSCs) are of paramount importance. On the basis of the well-known non-fullerene acceptor Y6, six acceptors (Y6-COH, Y6-COOH, Y6-CN, Y6-SO2H, Y6-CF3, and Y6-NO2) were designed by end-capped manipulation. The effects of end-capped engineering on electronic properties, optical properties, and interfacial charge-transfer states were systematically studied by density functional theory, time-dependent density functional theory, and molecular dynamics. The designed acceptors possess suitable energy levels and improved optical properties. More importantly, the electron mobility of the new acceptors was greatly enhanced, even more than 20 times that of the parent molecule. Among them, Y6-NO2 with the lowest-lying frontier molecular orbitals and the largest red-shifted absorption was selected to construct interfaces with the donor PM6. PM6/Y6-NO2 exhibits stronger interfacial interactions and enhanced charge-transfer characteristics compared with PM6/Y6. This work not only enhances the understanding of the structure–property relationship for acceptors but also offers a set of promising acceptors for high-performance OSCs.

Topics & Concepts

Organic solar cellAcceptorDensity functional theoryElectron acceptorBasis setMolecular orbitalMoleculeMaterials scienceHOMO/LUMOFullereneChemical physicsAtomic orbitalComputational chemistryChemistryPhotochemistryElectronOrganic chemistryPolymerPhysicsQuantum mechanicsCondensed matter physicsOrganic Electronics and PhotovoltaicsConducting polymers and applicationsPerovskite Materials and Applications
Theoretical Study of Non-Fullerene Acceptors Using End-Capped Groups with Different Electron-Withdrawing Abilities toward Efficient Organic Solar Cells | Litcius