Farokhi, AfsanehShahroosvand, HashemZisti, FatemehPilkington, MelanieNazeeruddin, Mohammad Khaja2024-02-192024-02-192024-02-192023-10-1110.1039/d3ta03585ahttps://infoscience.epfl.ch/handle/20.500.14299/204147WOS:001096532600001Dye-sensitized/organic solar cells (DS/O-SCs) have gradually improved their power conversion efficiencies (PCEs) and are now being considered for commercialization. This comprehensive review focuses on a prominent class of small organic molecules called triphenylamines (TPAs), which are extensively utilized in DS/O-SCs due to their low cost and facile synthestic procedures. Specifically, we aim to explore state-of-the-art experimental strategies for synthesizing TPA derivatives as efficient sensitizers. These sensitizers have demonstrated the ability to significantly enhance the PCE of DS/O-SCs by over 10%. The insights gained from this review will contribute to advancing the rational design of TPA-based DS/O-SCs, paving the way for potential commercial applications in the near future.|Highly efficient small organic triphenylamines (TPAs) molecules used in DSCs and OSCs with their cost-effectiveness and straightforward synthesis methods.Physical SciencesTechnologyPi-A DyesPhotoinduced Electron-TransferOrganic-DyesPhotovoltaic PerformanceLow-CostAuxiliary AcceptorAncillary LigandPorphyrin DyesSensitizersDonortext::journal::journal article::review article