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Blading Phase‐Pure Formamidinium‐Alloyed Perovskites for High‐Efficiency Solar Cells with Low Photovoltage Deficit and Improved Stability

Wu‐Qiang Wu, Peter N. Rudd, Qi Wang, Zhibin Yang, Jinsong Huang

2020Advanced Materials164 citationsDOIOpen Access PDF

Abstract

Currently, blade-coated perovskite solar cells (PSCs) with high power conversion efficiencies (PCEs), that is, greater than 20%, normally employ methylammonium lead tri-iodide with a sub-optimal bandgap. Alloyed perovskites with formamidinium (FA) cation have narrower bandgap and thus enhance device photocurrent. However, FA-alloyed perovskites show low phase stability and high moisture sensitivity. Here, it is reported that incorporating 0.83 molar percent organic halide salts (OHs) into perovskite inks enables phase-pure, highly crystalline FA-alloyed perovskites with extraordinary optoelectronic properties. The OH molecules modulate the crystal growth, enhance the phase stability, passivate ionic defects at the surface and/or grain boundaries, and enhance the moisture stability of the perovskite film. A high efficiency of 22.0% under 1 sun illumination for blade-coated PSCs is demonstrated with an open-circuit voltage of 1.18 V, corresponding to a very small voltage deficit of 0.33 V, and significantly improved operational stability with 96% of the initial efficiency retained under one sun illumination for 500 h.

Topics & Concepts

FormamidiniumMaterials sciencePerovskite (structure)PhotocurrentEnergy conversion efficiencyPassivationBand gapPhase (matter)Chemical engineeringIodideHalideOptoelectronicsNanotechnologyInorganic chemistryOrganic chemistryChemistryLayer (electronics)EngineeringPerovskite Materials and ApplicationsConducting polymers and applications
Blading Phase‐Pure Formamidinium‐Alloyed Perovskites for High‐Efficiency Solar Cells with Low Photovoltage Deficit and Improved Stability | Litcius