sn2介导的去耦前驱体的提供使单分散卤化铅钙钛矿量子点在单个反应器中大规模生产成为可能

IF 23.2 2区材料科学 Q1 MATERIALS SCIENCE, COMPOSITES Advanced Composites and Hybrid Materials Pub Date : 2025-01-15 DOI:10.1007/s42114-025-01229-w

Jigeon Kim, Woongchan Kim, Jin Il Jang, Wooyeon Kim, Doheon Yoo, Jae Woo Kim, Yubin Lee, Min-Jae Choi, Jongmin Choi, Hyung Min Kim, Sung Beom Cho, Min Jae Ko, Younghoon Kim

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引用次数: 0

摘要

量子限制卤化铅钙钛矿纳米晶体（QPNCs）由于其独特的荧光特性和尺寸和尺寸可调的光学特性而成为一种很有前途的光电半导体。在注入型卤化铅合成过程中，由于qpnc具有较低的地层能量，在精确调节成核和晶体生长阶段方面遇到了挑战。在此，我们介绍了一种基于双分子亲核取代（SN2）和解偶金属和卤化物前体热裂解反应的非注射、一锅合成方法，用于大规模生产单分散cspbx3 - qpnc （X = Cl, Br， I）。这种方法有助于卤化物阴离子和金属阳离子的均匀供应，从而能够精确控制孤立尺寸聚焦区域的成核和晶体生长阶段。单分散cspbx3 - qpnc通过调整尺寸、维度和卤化物成分，在RGB色域内实现高颜色纯度，可以超大规模生产。

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SN2-mediated decoupled precursor provision enables large-scale production of monodisperse lead halide perovskite quantum dots in a single reactor

Quantum-confined lead-halide perovskite nanocrystals (QPNCs) are a promising optoelectronic semiconductor owing to their exceptional fluorescence and the size- and dimension-tunable optical properties. QPNCs having low formation energy encounter challenges in accurately regulating the nucleation and crystal growth stages during injection-based syntheses using lead halide reagents. Here, we introduce a non-injection, one-pot synthetic approach based on bimolecular nucleophilic substitution (S_N2) and thermolysis reactions of the decoupled metal and halide precursors for the large-scale production of monodisperse CsPbX₃-QPNCs (X = Cl, Br, I). This approach facilitates a homogeneous supply of halide anions and metal cations, enabling the precise control over the nucleation and crystal growth stages in the isolated size-focused region. Monodisperse CsPbX₃-QPNCs achieve high color purity across the RGB color gamut by adjusting size, dimensionality, and halide composition, and can be produced on an ultra-large scale.

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来源期刊

Advanced Composites and Hybrid Materials Multiple-

CiteScore

26.00

自引率

21.40%

发文量

185

期刊介绍： Advanced Composites and Hybrid Materials is a leading international journal that promotes interdisciplinary collaboration among materials scientists, engineers, chemists, biologists, and physicists working on composites, including nanocomposites. Our aim is to facilitate rapid scientific communication in this field. The journal publishes high-quality research on various aspects of composite materials, including materials design, surface and interface science/engineering, manufacturing, structure control, property design, device fabrication, and other applications. We also welcome simulation and modeling studies that are relevant to composites. Additionally, papers focusing on the relationship between fillers and the matrix are of particular interest. Our scope includes polymer, metal, and ceramic matrices, with a special emphasis on reviews and meta-analyses related to materials selection. We cover a wide range of topics, including transport properties, strategies for controlling interfaces and composition distribution, bottom-up assembly of nanocomposites, highly porous and high-density composites, electronic structure design, materials synergisms, and thermoelectric materials. Advanced Composites and Hybrid Materials follows a rigorous single-blind peer-review process to ensure the quality and integrity of the published work.