Designing simple non-fused terthiophene-based electron acceptors for efficient organic solar cells

Two simple electron acceptors of 3TC8 and 3TEH are reported. Both acceptors show distinct aggregation behaviors. The 3TEH-based organic solar cell exhibits an outstanding power conversion efficiency of up to 14.4%. [Display omitted] Low-cost photovoltaic materials are essential for realizing large-s...

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Bibliographic Details
Published in:Journal of energy chemistry 2024-09, Vol.96, p.501-508
Main Authors: Li, Jiayu, Li, Kun, Mei, Zhe, Chen, Yu, Xie, Qian, Yu, Chenxu, Liu, Xuefeng, Wang, Yanqi, Wu, Yishi, Liao, Qing, An, Cunbin, Fu, Hongbing
Format: Article
Language:English
Subjects:
Low cost
Non-fused electron acceptor
Organic solar cells
Terthiophene
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Summary:Two simple electron acceptors of 3TC8 and 3TEH are reported. Both acceptors show distinct aggregation behaviors. The 3TEH-based organic solar cell exhibits an outstanding power conversion efficiency of up to 14.4%. [Display omitted] Low-cost photovoltaic materials are essential for realizing large-scale commercial applications of organic solar cells (OSCs). However, highly efficient OSCs based on low-cost photovoltaic materials are scarce due to a deficiency in understanding the structure-property relationship. Herein, we investigated two low-cost terthiophene-based electron acceptors, namely, 3TC8 and 3TEH, with 3,4-bis(octan-3-yloxy)thiophene, differing only in the alkylated thiophene-bridges. Both acceptors exhibit low optical gaps (∼1.43 eV) and possess deep highest occupied molecular orbital (HOMO) levels (∼−5.8 eV). Notably, the single-crystal structure of 3TEH demonstrates highly planar conjugated backbone and strong π-π stacking between intermolecular terminal groups, attributed to the presence of the bulky alkylated noncovalently conformational locks. Upon utilizing both acceptors to fabricate OSCs, the 3TC8-based device exhibited a power conversion efficiency (PCE) of 11.1%, while the 3TEH-based OSC demonstrated an excellent PCE of 14.4%. This PCE is the highest among OSCs based on terthiophene-containing electron acceptors. These results offer a new strategy for designing low-cost electron acceptors for highly efficient OSCs.
ISSN:2095-4956
DOI:10.1016/j.jechem.2024.04.050