Exciton dissociation in 2D layered metal-halide perovskites

Simbula, Angelica

First

;Wu, Luyan

Second

;Pitzalis, Federico;Pau, Riccardo;Lai, Stefano;Liu, Fang;Matta, Selene;Marongiu, Daniela;Quochi, Francesco;Saba, Michele

;Mura, Andrea

Penultimate

;Bongiovanni, Giovanni

Last

2023-01-01

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Abstract

: Layered 2D perovskites are making inroads as materials for photovoltaics and light emitting diodes, but their photophysics is still lively debated. Although their large exciton binding energies should hinder charge separation, significant evidence has been uncovered for an abundance of free carriers among optical excitations. Several explanations have been proposed, like exciton dissociation at grain boundaries or polaron formation, without clarifying yet if excitons form and then dissociate, or if the formation is prevented by competing relaxation processes. Here we address exciton stability in layered Ruddlesden-Popper PEA2PbI4 (PEA stands for phenethylammonium) both in form of thin film and single crystal, by resonant injection of cold excitons, whose dissociation is then probed with femtosecond differential transmission. We show the intrinsic nature of exciton dissociation in 2D layered perovskites, demonstrating that both 2D and 3D perovskites are free carrier semiconductors and their photophysics is described by a unique and universal framework.