期刊
MATERIALS
卷 14, 期 5, 页码 -出版社
MDPI
DOI: 10.3390/ma14051200
关键词
organic solar cell; intramolecular charge transfer; photon energy loss; exciton binding energy
类别
资金
- Japan Society for the Promotion of Science (JSPS) [R2602, JP17H03134, JP16H02286]
Conjugated donor-acceptor molecules with intramolecular charge transfer absorption have been successfully utilized for single-component organic solar cells, resulting in high efficiency and stability. The molecular packing in the film is shown to have a significant impact on the device performance.
Conjugated donor-acceptor molecules with intramolecular charge transfer absorption are employed for single-component organic solar cells. Among the five types of donor-acceptor molecules, the strong push-pull structure of DTDCPB resulted in solar cells with high J(SC), an internal quantum efficiency exceeding 20%, and high V-OC exceeding 1 V with little photon energy loss around 0.7 eV. The exciton binding energy (EBE), which is a key factor in enhancing the photocurrent in the single-component device, was determined by quantum chemical calculation. The relationship between the photoexcited state and the device performance suggests that the strong internal charge transfer is effective for reducing the EBE. Furthermore, molecular packing in the film is shown to influence photogeneration in the film bulk.
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