Substituent Effect on the p Linkers in Triphenylamine Dyes for Sensitized Solar Cells: A DFT/TDDFT Study
writer:Jie Xu, Ligen Zhu, Dong Fang, Biao Chen, Li Liu, Luoxin Wang, Weilin Xu
keywords:Triphenylamine, Dye-sensitized solar cells, DFT
source:期刊
Issue time:2012年
A series of metal-free organic donor–p bridge–acceptor dyes are studied computationally using density functional theory (DFT) and time-dependent DFT (TDDFT) approaches to explore their potential performances in dye-sensitized solar cells (DSSCs). Taking triphenylamine (TPA) and cyanoacrylic acid moieties as donor and acceptor units, respectively, the effects of different substituents of the p linkers in the TPA-based dyes
on the energy conversion efficiency of the DSSCs are theoretically evaluated through optimized geometries, charge distributions, electronic structures, simulated absorption spectra, and free energies of injection. The results show that the molecular orbital energy levels and electron-injection driving forces of the TPA dyes can be tuned by the introduction of substituents with different electron-withdrawing or -donating abilities. The
electron-withdrawing substituent always lowers the energies of both frontier orbitals, while the electron-donating one heightens them simultaneously. The efficiency trend of these TPA derivatives as sensitizers in DSSCs is also predicted by analyzing the light-harvesting efficiencies and the free energies of injection. The following substituents are shown to increase the efficiency of the dye: OMe, OEt, OHe, and OH.