Highly tunable properties in pressure-treated two-dimensional Dion–Jacobson perovskites

L Kong, G Liu, J Gong, L Mao, M Chen… - Proceedings of the …, 2020 - National Acad Sciences
L Kong, G Liu, J Gong, L Mao, M Chen, Q Hu, X Lü, W Yang, MG Kanatzidis, H Mao
Proceedings of the National Academy of Sciences, 2020National Acad Sciences
The application of pressure can achieve novel structures and exotic phenomena in
condensed matters. However, such pressure-induced transformations are generally
reversible and useless for engineering materials for ambient-environment applications.
Here, we report comprehensive high-pressure investigations on a series of Dion–Jacobson
(DJ) perovskites A′ A n− 1Pb n I3 n+ 1 [A′= 3-(aminomethyl) piperidinium (3AMP), A=
methylammonium (MA), n= 1, 2, 4]. Our study demonstrates their irreversible behavior, which …
The application of pressure can achieve novel structures and exotic phenomena in condensed matters. However, such pressure-induced transformations are generally reversible and useless for engineering materials for ambient-environment applications. Here, we report comprehensive high-pressure investigations on a series of Dion–Jacobson (D-J) perovskites A′An−1PbnI3n+1 [A′ = 3-(aminomethyl) piperidinium (3AMP), A = methylammonium (MA), n = 1, 2, 4]. Our study demonstrates their irreversible behavior, which suggests pressure/strain engineering could viably improve light-absorber material not only in situ but also ex situ, thus potentially fostering the development of optoelectronic and electroluminescent materials. We discovered that the photoluminescence (PL) intensities are remarkably enhanced by one order of magnitude at mild pressures. Also, higher pressure significantly changes the lattices, boundary conditions of electronic wave functions, and possibly leads to semiconductor–metal transitions. For (3AMP)(MA)3Pb4I13, permanent recrystallization from 2D to three-dimensional (3D) structure occurs upon decompression, with dramatic changes in optical properties.
National Acad Sciences
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