Water-induced Spinodal Decomposition of Mixed Halide Perovskite captured by Real-Time Liquid TEM Imaging - Laboratoire Réactivité et Chimie des Solides - UMR CNRS 7314
Article Dans Une Revue Energy & Environmental Science Année : 2024

Water-induced Spinodal Decomposition of Mixed Halide Perovskite captured by Real-Time Liquid TEM Imaging

Résumé

Hybrid halide perovskite materials face significant challenges in reaching long-term stability, particularly due to their vulnerability to humidity. While encapsulation can provide some protection by delaying the water-induced degradation, understanding the precise reaction pathways is crucial for developing more robust compositions and advanced device architectures. Traditional ex situ methods offer only snapshots of degradation states, failing to capture the initiation and full evolution of the degradation process in real time. In this study, we utilize cutting-edge real-time electron imaging and in situ liquid-cell transmission electron microscopy to dynamically observe the degradation processes of the Cs0.05(MA0.17FA0.83)0.95Pb(Br0.17I0.83)3 (CsMAFA) perovskite in contact with water molecules. Using in situ live TEM imaging, combined to SAED and 4D-STEM ACOM techniques, we capture the subsequent degradation steps at both nanoscopic and mesoscopic levels from inception to full degradation. Our results particularly support the spinodal nature of the early-stage decomposition of the perovskite, where a spontaneous coexistence of CsMAFA, PbI2 and CsPb2Br5 is observed within a single grain upon contact with water molecules. This step either competes with, or, is followed by a dissolution/recrystallization mechanism from CsMAFA to PbI2 grains, while the solid-state spinodal decomposition of CsMAFA to CsPb2Br5 continues. From live image segmentations, two different growth rates of PbI2 are highlighted, i.e. in t1/2 and t1/3, controlling the final particles morphology into fine polygons and needles. Longer exposure times leads to two stages, firstly the complete degradation of the pristine perovskite, resulting in the two end members, namely PbI2 and CsPb2Br5 as a single-phase particles, secondly the dissolution of the CsPb2Br5 particles and disentangling of the remaining PbI2 particles.
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Dates et versions

hal-04803142 , version 1 (25-11-2024)

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Nicolas Folastre, Mohammad Ali Akhavan Kazemi, Kirill Cherednichneko, Arash Jamali, Jean Rousset, et al.. Water-induced Spinodal Decomposition of Mixed Halide Perovskite captured by Real-Time Liquid TEM Imaging. Energy & Environmental Science, 2024, 17 (22), pp.8745-8755. ⟨10.1039/d4ee03381g⟩. ⟨hal-04803142⟩
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