Issue 11, 2021

Overlapping fasten packing enables efficient dual-donor ternary organic solar cells with super stretchability

Abstract

The flexibility and stability of organic solar cells (OSCs) are becoming hotspot research due to their practical applications. Molecular arrangement and network morphology of the active layer are important factors affecting the flexibility and stability of OSCs. Here, two polymer donors (PBB1-Cl and PBB2-Cl) with different side chains were investigated as the third component to finely regulate morphology and molecular accumulation of the active layer to improve the performance of OSCs. Both third components show complementary absorption spectra and good compatibility. The good planarity of PBB1-Cl and PBB2-Cl significantly increases intermolecular overlap to promote the charge transfer in the active layer. In addition, the steric hindrance of the one-dimensional side chain of PBB1-Cl enhanced the intermolecular close packing and entanglement of the active layer. As a result, the tensile endurance of PM6:PBB1-Cl:Y6-BO-4Cl ternary blend film reached 4.6 times (26.86%) of the PM6:Y6-BO-4Cl binary blend film. Furthermore, the power conversion efficiency (PCE) increased from 15.83% for PM6:Y6-BO-4Cl based binary OSCs to 17.36% for PBB1-Cl based rigid ternary OSCs, and the flexible OSCs increased from 13.44% to 14.96%, respectively. 17.36% efficiency of PBB1-Cl based ternary OSCs is the highest value in OSCs with elongation at the break of active layer exceeding 25% so far. Further, the PCEs of PBB1-Cl-based flexible ternary OSCs still remain above 74% within 500 cycles of bending with a diameter of 10 mm or annealing at 100 °C for 24 hours, which is mainly attributed to the smaller surface energy difference between PBB1-Cl-based ternary blend film and transport layers, higher glass transition temperature and larger elongation at break of the active layer. All results suggest that enhancing intermolecular overlapping fasten packing in the active layer has great potential in improving the photovoltaic performance, mechanical and thermal stability of OSCs.

Graphical abstract: Overlapping fasten packing enables efficient dual-donor ternary organic solar cells with super stretchability

Supplementary files

Article information

Article type
Paper
Submitted
27 Jul 2021
Accepted
27 Sep 2021
First published
28 Sep 2021

Energy Environ. Sci., 2021,14, 5968-5978

Overlapping fasten packing enables efficient dual-donor ternary organic solar cells with super stretchability

J. Wang, C. Han, F. Bi, D. Huang, Y. Wu, Y. Li, S. Wen, L. Han, C. Yang, X. Bao and J. Chu, Energy Environ. Sci., 2021, 14, 5968 DOI: 10.1039/D1EE02320A

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