What does this research mean for the field?

Incorporating a fluorinated, asymmetric 2D-extended quinoxaline core with fluorinated terminal groups into nonfullerene acceptors improves charge carrier mobility balance and yields organic solar cell efficiencies up to 14.56%. Novelty: ClaimNovelty.INCREMENTAL. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

This work investigates how extending the 2D core of nonfullerene acceptors impacts organic solar cell efficiency.

April 25, 2026

Fluorinated Asymmetric 2D Core-Extended Nonfullerene Acceptors for Efficient Organic Solar Cells

Key Points

This work investigates how extending the 2D core of nonfullerene acceptors impacts organic solar cell efficiency.
Synthesized two fluorinated asymmetric NFAs, IC-IQ2FDMBO-IC and IC2F-IQ2FDMBO-IC2F.
Evaluated the energy levels and absorption properties of the NFAs compared to each other.
Blended the NFAs with PBDB-T to assess charge carrier mobilities and efficiency.
PBDB-T:IC2F-IQ2FDMBO-IC2F devices achieved a higher efficiency of 14.56%.
IC2F-IQ2FDMBO-IC2F showed deeper energy levels and longer wavelength absorption compared to IC-IQ2FDMBO-IC.
Improved morphologies in the blend enhanced charge carrier mobilities, leading to better device performance.

Abstract

Organic solar cell efficiency can be boosted through the strategic extension of the 2D conjugated core in nonfullerene acceptors (NFAs). In this work, two NFAs, IC-IQ2FDMBO-IC and IC2F-IQ2FDMBO-IC2F, were synthesized based on an asymmetric, fluorinated 2D-extended quinoxaline core featuring an unexpected N,N-dimethylmethanamine substitution. Compared to IC-IQ2FDMBO-IC, IC2F-IQ2FDMBO-IC2F exhibits deeper-lying energy levels and absorption extending to longer wavelengths due to its fluorinated terminal groups. When blended with PBDB-T, IC2F-IQ2FDMBO-IC2F forms more ordered and clearer fibril-like morphologies, resulting in an improved balance of charge carrier mobilities. Consequently, PBDB-T:IC2F-IQ2FDMBO-IC2F devices achieve a higher efficiency of 14.56%, surpassing devices based on PBDB-T:IC-IQ2FDMBO-IC. These results suggest that incorporating a fluorinated, asymmetric quinoxaline core is a rational design strategy for efficient NFAs.

Fluorinated Asymmetric 2D Core-Extended Nonfullerene Acceptors for Efficient Organic Solar Cells

Key Points

Abstract

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