Quantifying cooperative FA+/MA+ ion migration in mixed perovskites via nano-infrared imaging
Jing Liang, Mu-Hao Lan, Shu Ding, Xing-Hua Xia, Jian Li

TL;DR
Nano-infrared imaging shows how MA+ and FA+ ions move together in mixed perovskites, helping improve solar cell stability.
Contribution
The study provides direct evidence of cooperative cation migration in mixed perovskites using nano-infrared imaging.
Findings
MA+ and FA+ show similar migration rates in FA0.5MA0.5PbI3, indicating cooperative migration.
Mixed-cation perovskites suppress bulk ion migration, stabilizing internal fields and improving voltage.
DFT calculations show that A-site mixing increases migration barriers through steric and electrostatic effects.
Abstract
Ion migration plays a critical role in the operational stability and efficiency of hybrid perovskite solar cells, yet direct and species-specific quantification of mobile cations remains challenging. Here, we employ infrared photo-induced force microscopy (IR-PiFM) to investigate the migration dynamics of MA+ and FA+ in MAPbI3, FAPbI3 and FA0.5MA0.5PbI3. These techniques allow nanoscale mapping and real-time tracking of individual cations with high chemical specificity and 250 μs temporal resolution. Our results reveal composition- and location-dependent ion transport behavior; while MA+ exhibits higher mobility in pure MAPbI3, its diffusion is significantly suppressed in the mixed-cation system. Surprisingly, FA+ and MA+ in FA0.5MA0.5PbI3 exhibit similar migration rates, suggesting a cooperative migration mechanism. Density functional theory calculations support this interpretation,…
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Taxonomy
TopicsPerovskite Materials and Applications · Machine Learning in Materials Science · 2D Materials and Applications
