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Rapid hybrid perovskite film crystallization from solution

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CHEMICAL SOCIETY REVIEWS
卷 50, 期 12, 页码 7108-7131

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ROYAL SOC CHEMISTRY
DOI: 10.1039/d0cs01272f

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The use of a solution process to grow perovskite thin films extends material processability and allows tuning of physicochemical properties by controlling crystal growth. Controlling crystal growth with rapid thermal annealing and high-precision photonic sintering simplifies experimental frameworks, opening up new synthesis methods. This knowledge improves perovskite synthesis and thin film quality, leading to higher device performances.
The use of a solution process to grow perovskite thin films allows to extend the material processability. It is known that the physicochemical properties of the perovskite material can be tuned by altering the solution precursors as well as by controlling the crystal growth of the film. This advancement necessarily implies the need for an understanding of the kinetic phenomena for the thin-film formation. Therefore, in this work we review the state of the art of perovskite hybrid crystal growth, starting from a comprehensive theoretical description towards broad experimental investigations. One part of the study focuses on rapid thermal annealing as a tool to control nucleation and crystal growth. We deduce that controlling crystal growth with high-precision photonic sintering simplifies the experimental framework required to understand perovskite crystallization. These types of synthesis methods open a new empirical parameter space. All this knowledge serves to improve the perovskite synthesis and the thin films' quality, which will result in higher device performances.

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