Abstract
Mixed halide perovskites can provide optimal bandgaps for tandem solar cells which are key to improved cost-efficiencies, but can still suffer from detrimental illumination-induced phase segregation. Here we employ optical-pump terahertz-probe spectroscopy to investigate the impact of halide segregation on the charge-carrier dynamics and transport properties of mixed halide perovskite films. We reveal that, surprisingly, halide segregation results in negligible impact to the THz charge-carrier mobilities, and that charge carriers within the I-rich phase are not strongly localised. We further demonstrate enhanced lattice anharmonicity in the segregated I-rich domains, which is likely to support ionic migration. These phonon anharmonicity effects also serve as evidence of a remarkably fast, picosecond charge funnelling into the narrow-bandgap I-rich domains. Our analysis demonstrates how minimal structural transformations during phase segregation have a dramatic effect on the charge-carrier dynamics as a result of charge funnelling. We suggest that because such enhanced recombination is radiative, performance losses may be mitigated by deployment of careful light management strategies in solar cells.
Highlights
Mixed halide perovskites can provide optimal bandgaps for tandem solar cells which are key to improved cost-efficiencies, but can still suffer from detrimental illumination-induced phase segregation
In this work we address these aims by employing a combination of photoluminescence (PL) and optical-pump terahertz-probe (OPTP) spectroscopy to investigate the impact of phase segregation on the charge-carrier dynamics and transport properties in mixed halide perovskite films
Increased radiative efficiency is usually sought for optimisation of photovoltaic materials, in this case, the high radiative rates in the phase-segregated perovskite can translate into excess losses in mixed halide solar cells
Summary
Mixed halide perovskites can provide optimal bandgaps for tandem solar cells which are key to improved cost-efficiencies, but can still suffer from detrimental illumination-induced phase segregation. We reveal how charge funnelling into I-rich domains results in a dramatic acceleration of the charge-carrier radiative recombination in phase-segregated mixed halide perovskite.
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