An Asymmetric Coumarin‐Anthracene Conjugate as Efficient Fullerene‐Free Acceptor for Organic Solar Cells

Asymmetric wide‐band gap fullerene‐free acceptors (FFAs) play a crucial role in organic solar cells (OSCs). Here, we designed and synthesized a simple asymmetric coumarin‐anthracene conjugate named CA‐CN with optical band gap of 2.1 eV in a single‐step condensation reaction. Single crystal X‐ray str...

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Veröffentlicht in:Angewandte Chemie 2024-10, Vol.136 (40), p.n/a
Hauptverfasser: Niharika Bhuyan, Nirmala, Shankar S, Shyam, Jyoti Panda, Subhra, Shekhar Purohit, Chandra, Singhal, Rahul, Sharma, Ganesh D., Mishra, Amaresh
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Sprache:eng
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Zusammenfassung:Asymmetric wide‐band gap fullerene‐free acceptors (FFAs) play a crucial role in organic solar cells (OSCs). Here, we designed and synthesized a simple asymmetric coumarin‐anthracene conjugate named CA‐CN with optical band gap of 2.1 eV in a single‐step condensation reaction. Single crystal X‐ray structure analysis confirms various multiple intermolecular non‐covalent interactions. The molecular orbital energy levels of CA‐CN estimated from cyclic voltammetry were found to be suitable for its use as an acceptor for OSCs. Binary OSCs fabricated using CA‐CN as acceptor and PTB7‐Th as the donor achieve a power conversion efficiency (PCE) of 11.13 %. We further demonstrate that the insertion of 20 wt % of CA‐CN as a third component in ternary OSCs with PTB7‐Th : DICTF as the host material achieved an impressive PCE of 14.91 %, an improvement of ~43 % compared to the PTB7‐Th : DICTF binary device (10.38 %). Importantly, the ternary blend enhances the absorption coverage from 400 to 800 nm and improves the morphology of the active layer. The findings highlight the efficacy of an asymmetric design approach for FFAs, which paves the way for developing high‐efficiency OSCs at low cost. A simple and low‐cost wide‐band gap coumarin‐anthracene‐based D‐A dyad was designed and synthesized. The molecule when applied as an acceptor into PTB7‐Th : DICTF blend exhibited an impressive power conversion efficiency of 14.91 % in ternary organic solar cells.
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.202406272