Light-Absorbing Pyridine Derivative As A New Electrolyte Additive For Developing Efficient Porphyrin Dye-Sensitized Solar Cells

To fabricate efficient dye-sensitized solar cells (DSSCs), 4-tert-butylpyridine (TBP) is commonly used as an additive in the electrolytes for improving the photovoltages (V-OC). However, TBP cannot play a positive role in improving the photocurrent (J(SC)) because of the lack of absorption in the visible-wavelength range. We herein report a light-absorbing pyridine derivative Ni as an additive for the axial coordination with porphyrin dyes. Ni was synthesized by introducing a (bis(4-methoxyphenyl)amino)anthryl moiety into the para-position of pyridine via an acetylene bridge, and porphyrin dye XW64 containing meso-3,5-disubstituted phenyl groups was synthesized considering that the meta-substituted phenyl groups may induce weaker steric hindrance with the axial pyridyl ligand, as compared with wrapped and strapped porphyrin dyes. Thus, Ni was used as an electrolyte additive together with TBP. When optimized concentrations of 6 mM Ni and 0.5 M TBP were used for fabricating DSSCs based on XW64, enhanced photovoltaic performance was achieved, with J(SC), V-OC, and efficiency of 15.65 mA.cm(-2), 0.701 V, and 7.35%, respectively, superior to those of the corresponding DSSCs without using the additives (J(SC) = 14.86 mA.cm(- ), V-OC = 0.599 V, and efficiency = 5.94%). The enhancement of J(SC) can be ascribed to the improved light-harvesting ability induced by the axially coordinated Ni. Furthermore, the two additives also can be used to fabricate efficient solar cells based on the wrapped porphyrin dye XW42, achieving high efficiency of 10.3%, indicative of their general applicability in fabricating high-performance DSSCs. These results indicate that the simultaneous employment of the traditional TBP additive and a pyridyl ligand with light-harvesting ability in the electrolyte for the axial coordination to a porphyrin dye is a promising approach for developing efficient DSSCs.