Minimizing Ionic Losses in DMSO-Free Tin-Based Perovskite Solar Cells.
Paria Forozi Sowmeeh, Shengnan Zuo, Chiara Frasca, Biruk Alebachew Seid, Sercan Ozen, Wentao Liu, Mahmoud Hussein Aldamasy, Yuan Zhang, Fengshuo Zu, Norbert Koch, Martin Stolterfoht, Antonio Abate, Artem Musiienko, Felix Lang
Abstract
Open AccessDespite the exceptional optoelectronic properties of Pb-based perovskite solar cells, the concerns about their intrinsic instability due to the presence of mobile ions and their potential toxicity are two major obstacles for commercialization. Sn-based perovskites have been revealed as ecofriendly perovskite counterparts. Furthermore, they are believed to exhibit smaller ion-induced instabilities, although thorough investigations are missing. Herein, we investigate the nature of mobile species, quantify the ionic loss within Sn-based perovskite solar cells, and compare with those of Pb-based and mixed PbSn devices. We report over 10-fold lower ion densities with minimal ionic losses in DMSO-free processed Sn samples compared with Pb-based perovskites. The pure Sn-based samples also show the lowest associated ionic losses with sustained device and film stability during prolonged illumination. This study thus propels our understanding of ion migration phenomena in Sn-based devices and paves the way for the development of innovative, stable thin film solar cells with suppressed ion migration.