Improved efficiency and reduced hysteresis in ultra-stable fully printable mesoscopic perovskite solar cells through incorporation of CuSCN into the perovskite layer

Zimmermann, IwanGratia, PaulMartineau, DavidGrancini, GiuliaAudinot, Jean-NicolasWirtz, TomNazeeruddin, Mohammad Khaja2019-06-182019-06-182019-04-1410.1039/c9ta00669ahttps://infoscience.epfl.ch/handle/20.500.14299/157324WOS:000464414200007Fully printable hole transport layer-free mesoscopic perovskite solar cells have proven excellent long-term stability and are therefore promising candidates for scale-up to larger modules required for the commercialization of the perovskite photovoltaic technology. In this work the imbalanced charge extraction resulting from relatively thick device architectures is addressed by adding CuSCN to the perovskite absorber layer which was shown to significantly reduce the hysteresis and improve solar cell efficiency.Chemistry, PhysicalEnergy & FuelsMaterials Science, MultidisciplinaryChemistryEnergy & FuelsMaterials Scienceinduced degradationhigh-performancemigrationbehavioriodideImproved efficiency and reduced hysteresis in ultra-stable fully printable mesoscopic perovskite solar cells through incorporation of CuSCN into the perovskite layertext::journal::journal article::research article