Doerflinger, PatrickDing, YongSchmid, ValentinArmer, MelinaTurnell-Ritson, Roland C.Ding, BinDyson, Paul JNazeeruddin, Mohammad KhajaDyakonov, Vladimir2024-02-142024-02-142024-02-142023-10-0910.1002/advs.202304502https://infoscience.epfl.ch/handle/20.500.14299/203732WOS:001080322100001Besides further improvement in the power conversion efficiency (PCE) of perovskite solar cells (PSC), their long-term stability must also be ensured. Additives such as organic cations with halide counter anions are considered promising candidates to address this challenge, conferring both higher performance and increased stability to perovskite-based devices. Here, a stabilizing additive (<i>N,N</i>-dimethylmethyleneiminium chloride, [Dmmim]Cl) is identified, and its effect on charge carrier mobility and lifetime under thermal stress in triple cation perovskite (Cs_0.05MA_0.05FA_0.90PbI₃) thin films is investigated. To explore the fundamental mechanisms limiting charge carrier mobility, temperature-dependent microwave conductivity measurements are performed. Different mobility behaviors across two temperature regions are revealed, following the power law T^m, indicating two different dominant scattering mechanisms. The low-temperature region is assigned to charge carrier scattering with polar optical phonons, while a strong decrease in mobility at high temperatures is due to dynamic disorder. The results obtained rationalize the improved stability of the [Dmmim]Cl-doped films and devices compared to the undoped reference samples, by limiting temperature-activated mobile ions and retarding degradation of the perovskite film.|A stabilizing additive for triple-cation perovskite solar cells is identified that increases both performance and stability. These observations are supported by temperature-dependent investigations of charge carrier mobility using microwave conductivity and open-circuit voltage decay.imagePhysical SciencesTechnologyMicrowave ConductivityMobile IonsMobilityPerovskite Solar CellStabilitytext::journal::journal article::research article