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Universal growth of perovskite thin monocrystals from high solute flux for sensitive self-driven X-ray detection.


ABSTRACT: Metal-halide perovskite thin monocrystals featuring efficient carrier collection and transport capabilities are well suited for radiation detectors, yet their growth in a generic, well-controlled manner remains challenging. Here, we reveal that mass transfer is one major limiting factor during solution growth of perovskite thin monocrystals. A general approach is developed to overcome synthetic limitation by using a high solute flux system, in which mass diffusion coefficient is improved from 1.7×10-10 to 5.4×10-10 m2 s-1 by suppressing monomer aggregation. The generality of this approach is validated by the synthesis of 29 types of perovskite thin monocrystals at 40-90 °C with the growth velocity up to 27.2 μm min-1. The as-grown perovskite monocrystals deliver a high X-ray sensitivity of 1.74×105 µC Gy-1 cm-2 without applied bias. The findings regarding limited mass transfer and high-flux crystallization are crucial towards advancing the preparation and application of perovskite thin monocrystals.

SUBMITTER: Liu D 

PROVIDER: S-EPMC10944467 | biostudies-literature | 2024 Mar

REPOSITORIES: biostudies-literature

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Universal growth of perovskite thin monocrystals from high solute flux for sensitive self-driven X-ray detection.

Liu Da D   Zheng Yichu Y   Sui Xin Yuan XY   Wu Xue Feng XF   Zou Can C   Peng Yu Y   Liu Xinyi X   Lin Miaoyu M   Wei Zhanpeng Z   Zhou Hang H   Yao Ye-Feng YF   Dai Sheng S   Yuan Haiyang H   Yang Hua Gui HG   Yang Shuang S   Hou Yu Y  

Nature communications 20240316 1


Metal-halide perovskite thin monocrystals featuring efficient carrier collection and transport capabilities are well suited for radiation detectors, yet their growth in a generic, well-controlled manner remains challenging. Here, we reveal that mass transfer is one major limiting factor during solution growth of perovskite thin monocrystals. A general approach is developed to overcome synthetic limitation by using a high solute flux system, in which mass diffusion coefficient is improved from 1.  ...[more]

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