| 摘要: |
Bare naphthalene units bonded via the alpha- and beta-positions as side chain substituents on an asymmetric benzodithiophene (BDT) building block were employed in the design of new light-harvesting polymers for the first time. Accordingly, two D-A type polymers, based on naphthyl-substituted BDT as a D-building block and the well-known 4,7-di(thiophen-2-ethylhexyl)-5,6-difluoro-2,1,3-benzothiadiazole (DTffBT) as an acceptor unit, were synthesized. The polymer PBDT beta NPFBT with naphthalene bonded via the beta-position exhibits an appropriate pi-pi distance. The naphthalene rings efficiently broaden the absorption and narrow the optical band gap (E-g(opt)), by extending the degree of pi-conjugation, which is beneficial for capturing more photons and thus improving the short-circuit current density (J(SC)). Meanwhile, PBDT beta NPFBT-based devices also exhibit a desirable high open circuit voltage (V-OC), due to the low saturation dark current density (J(S)) arising from the exactly appropriate pi-pi distance. As a result, the power conversion efficiency (PCE) of 9.80% for the PBDT beta NPFBT/PC71BM-based PSC is the highest efficiency ever obtained among the reported BDT and DTBT backbone photovoltaic polymers. In addition, a PCE of 7.33% was obtained for PBDT beta NPFBT/ITIC without any treatment, which is also impressive for non-fullerene PSCs. Thus, it can be concluded that a naphthyl unit bonded via the beta-position can lead to a better trade-off between E-g(opt) and V-OC, ultimately increasing the PCE dramatically. |
