New Wide Bandgap Conjugated D‐A Copolymers Based on BDT or NDT Donor Unit and Anthra[1,2‐b:4,3,bʹ:6,7‐cʺ]trithiophene‐8‐12‐dione Acceptor for Fullerene‐Free Polymer Solar Cells

Abstract: Two donor-acceptor (D-A) copolymers, P128 and P129, containing benzodithiophene (BDT) and naphthiodithiophene (NDT) donor unit, respectively, and the alike anthra[1,2-b:4,3,bʹ:6,7-cʺ] trithiophene-8-12-dione(A3T) as an acceptor unit, are synthesized. The P129 (NDT donor) exhibits enhanced chain planarity and linearity of backbone compared to P128 (BDT donor), which leads to a considerable increase in both the light-harvesting ability and hole mobility. In addition to it, the incorporation of the NDT unit creat… Show more

“…In addition, after adjusting the binding site of thiophene and benzene units, a series of novel polymer donors designed by introducing the donor unit benzo [2, 1-b : 3, 4-b '] dithiophene (BdT) were also successfully synthesized. In 2011, P128 (2011) was first reported by Keshtov and co-workers; [354] a series of novel polymer donors PBdT-DTBT (2011) ,PBdT-DPP (2011) , PBdT-TTz (2011) and PBdT-BTz (2011) were also prepared by Zhang et al [355] After applying for OSC devices, the formation of highly ππ conjugated structure endows such OSCs with a high V oc , especially for P128: Y6 based (0.92 V) and PBdT-TTz: PC 70 BM based (0.90 V) OSCs. Furthermore, P1 (2017) and PDTID-DTB(P2) (2022) were also successfully synthesized by Keshtov and co-workers.…”

“…Afterward, based on the reported results of P128, Keshtov and co-workers constructed the donor unit NdT by introducing benzene group to further extend the conjugated plane of BdT, followed by the synthesis ofP129 (2022) . [354] Notably, after blending with the acceptor Y6, P129: Y6 based OSC exhibited theV oc of 0.86 V, J sc of 23.58 mA/cm 2 , FF of 71% and PCE of 14.33%. Compared with P128: Y6 based OSC, the significantly optimized photovoltaic performance presented in P129: Y6 based OSC can be attributed to the formation of more complemental absorption and finer fibrous network morphology of P129: Y6 blend film.…”

Research progress and application of high efficiency organic solar cells based on benzodithiophene donor materials

“…In addition, after adjusting the binding site of thiophene and benzene units, a series of novel polymer donors designed by introducing the donor unit benzo [2, 1-b : 3, 4-b '] dithiophene (BdT) were also successfully synthesized. In 2011, P128 (2011) was first reported by Keshtov and co-workers; [354] a series of novel polymer donors PBdT-DTBT (2011) ,PBdT-DPP (2011) , PBdT-TTz (2011) and PBdT-BTz (2011) were also prepared by Zhang et al [355] After applying for OSC devices, the formation of highly ππ conjugated structure endows such OSCs with a high V oc , especially for P128: Y6 based (0.92 V) and PBdT-TTz: PC 70 BM based (0.90 V) OSCs. Furthermore, P1 (2017) and PDTID-DTB(P2) (2022) were also successfully synthesized by Keshtov and co-workers.…”

“…Afterward, based on the reported results of P128, Keshtov and co-workers constructed the donor unit NdT by introducing benzene group to further extend the conjugated plane of BdT, followed by the synthesis ofP129 (2022) . [354] Notably, after blending with the acceptor Y6, P129: Y6 based OSC exhibited theV oc of 0.86 V, J sc of 23.58 mA/cm 2 , FF of 71% and PCE of 14.33%. Compared with P128: Y6 based OSC, the significantly optimized photovoltaic performance presented in P129: Y6 based OSC can be attributed to the formation of more complemental absorption and finer fibrous network morphology of P129: Y6 blend film.…”

Research progress and application of high efficiency organic solar cells based on benzodithiophene donor materials

Research progress and application of high efficiency organic solar cells based on benzodithiophene donor materials