Ultrafast relaxation of lattice distortion in two-dimensional perovskites - Archive ouverte HAL
Article Dans Une Revue Nature Physics Année : 2023

Ultrafast relaxation of lattice distortion in two-dimensional perovskites

Hao Zhang
Jin Hou
Ming-Fu Lin
Xiaozhe Shen
Xijie Wang
Mercouri Kanatzidis
Claudine Katan
Jean-Christophe Blancon
Aditya Mohite

Résumé

Direct visualization of ultrafast coupling between charge carriers and lattice degrees of freedom in photoexcited semiconductors has remained a long-standing challenge and is critical for understanding the light-induced physical behaviour of materials under extreme non-equilibrium conditions. Here we obtain a direct visualization of the structural dynamics in monocrystalline 2D perovskites. We achieve this by monitoring the evolution of wavevector-resolved ultrafast electron diffraction intensity following above-bandgap high-density photoexcitation. Our analysis reveals a light-induced ultrafast reduction in antiferro-distortion resulting from a strong interaction between the electron–hole plasma and perovskite lattice, which induces an in-plane octahedra rotation towards a more symmetric phase. Correlated ultrafast spectroscopy performed at the same carrier density as ultrafast electron diffraction reveals that the creation of a dense electron–hole plasma triggers the relaxation of lattice distortion at shorter timescales by modulating the crystal cohesive energy. Finally, we show that the interaction between carrier gas and lattice can be altered by tailoring the rigidity of the 2D perovskite by choosing an appropriate organic spacer layer.
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Dates et versions

hal-03958981 , version 1 (15-03-2023)

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Hao Zhang, Wenbin Li, Joseph Essman, Claudio Quarti, Isaac Metcalf, et al.. Ultrafast relaxation of lattice distortion in two-dimensional perovskites. Nature Physics, 2023, 19 (4), pp.545. ⟨10.1038/s41567-022-01903-6⟩. ⟨hal-03958981⟩
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