Abstract
Chlorinated small-molecule DRTB-Cl was designed and synthesized for all-small-molecule organic solar cells (ASM-OSCs). DRTB-Cl and non-chlorinated DRTB with same molecular backbone were selected as the electron donors to construct ASM-OSCs with non-fullerene acceptor Y6. High efficiencies of 11.92% and 10.09% were achieved for DRTB-Cl:Y6- and DRTB:Y6-based devices after optimization, respectively. The DRTB-Cl:Y6-based device showed a higher open-circuit voltage (Voc), which was ascribed to the lower-lying highest occupied molecular orbital energy level of DRTB-Cl. Meanwhile, the better phase separation and more balanced charge mobility contributed to the higher fill factor for the DRTB-Cl:Y6-based device.
Graphical Abstract
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