期刊
NANO ENERGY
卷 85, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.nanoen.2021.105963
关键词
Ternary polymer solar cell; Small molecule donor; Nonradiative energy loss; Miscibility; Morphology
类别
资金
- National Natural Science Foundation of China (NSFC) [51773142, 51973146]
- Jiangsu Provincial Natural Science Foundation [BK20190099]
- National Science Foundation of China [52073207]
- Peiyang Scholar Program of Tianjin University
- Office of Science, Office of Basic Energy Sciences, of the US Department of Energy [DE-AC02-05CH11231]
This study introduces a small molecule donor, BTTzR, into a state-of-the-art binary system to fabricate high-efficiency ternary polymer solar cells with low non-radiative energy loss. BTTzR forms an energy cascade with binary components to facilitate charge transfer, enhancing crystallization and domain purity of the blend.
To further improve the photovoltaic performance of the polymer solar cells (PSCs), it is an essential and significantly challenging issue to synergistically minimize non-radiative energy loss and optimize morphology. In this work, ternary PSCs are fabricated by incorporating a small molecule donor, namely BTTzR, into the state-ofthe-art PM6:Y6 binary system. Detailed investigations suggest that BTTzR can form energy cascade with binary components to facilitate charge transfer. Furthermore, the integration of BTTzR can enhance crystallization and domain purity of the binary blend, and effectively suppress the aggregation of Y6, which ultimately leads to more efficient charge transport and lower non-radiative energy loss (Delta Enr). As a result, compared to the binary devices with PCE of 15.8% and Delta Enr of 0.23 eV, the ternary PSCs with 20% BTTzR contents achieved a significantly enhanced performance with PCE of 17.7% and lower Delta Enr of 0.19 eV, which are among the best results reported in the literatures to date. Therefore, this work not only offers a high-efficiency ternary blend system but also provides an efficient strategy to synergistically minimize non-radiative energy loss and optimize the morphology for the development of PSCs.
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