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Revealing the Mechanism behind the Catastrophic Failure of n‐i‐p Type Perovskite Solar Cells under Operating Conditions and How to Suppress It

Changzeng Ding, Li Yin, Lianping Zhang, Rong Huang, Shizhao Fan, Qun Luo, Jian Lin, Fangsen Li, Chun Zhao, Ronald Österbacka, Chang‐Qi Ma

2021Advanced Functional Materials37 citationsDOIOpen Access PDF

Abstract

Abstract The n‐i‐p type perovskite solar cells suffer unpredictable catastrophic failure under operation, which is a barrier for their commercialization. The fluorescence enhancement at Ag electrode edge and performance recovery after cutting the Ag electrode edge off prove that the shunting position is mainly located at the edge of device. Surface morphology and elemental analyses prove the corrosion of the Ag electrode and the diffusion of Ag + ions on the edge for aged cells. Moreover, much condensed and larger Ag clusters are formed on the MoO 3 layer. Such a contrast is also observed while comparing the central and the edge of the Ag/Spiro‐OMeTAD film. Hence, the catastrophic failure mechanism can be concluded as photon‐induced decomposition of the perovskite film and release reactive iodide species, which diffuse and react with the loose Ag clusters on the edge of the cell. The corrosion of the Ag electrode and the migration of Ag + ions into Spiro‐OMeTAD and perovskite films lead to the forming of conducting filament that shunts the cell. The more condensed Ag cluster on the MoO 3 surface as well as the blocking of holes within the Spiro‐OMeTAD/MoO 3 interface successfully prevent the oxidation of Ag electrode and suppress the catastrophic failure.

Topics & Concepts

Materials scienceElectrodePerovskite (structure)NucleationEnhanced Data Rates for GSM EvolutionIodideCatastrophic failureIonCorrosionChemical engineeringComposite materialInorganic chemistryChemistryTelecommunicationsPhysical chemistryComputer scienceOrganic chemistryEngineeringPerovskite Materials and ApplicationsConducting polymers and applicationsAdvanced battery technologies research
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