一步法微波辐射制备卤化铯铅（CsPbX，X = Cl，Br，I）钙钛矿纳米晶。

One-Step Preparation of Cesium Lead Halide CsPbX (X = Cl, Br, and I) Perovskite Nanocrystals by Microwave Irradiation.

机构信息

State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University , Changchun 130012, P. R. China.

Nanjing Haiyan Electric Technology Co. Ltd. , Nanjing 211500, P. R. China.

出版信息

ACS Appl Mater Interfaces. 2017 Dec 13;9(49):42919-42927. doi: 10.1021/acsami.7b14677. Epub 2017 Dec 4.

DOI:10.1021/acsami.7b14677

PMID:29200265

Abstract

CsPbX (X = Cl, Br, I) nanocrystals (NCs) are competitive emitting materials for illumination and display because of their outstanding photophysical properties. However, the conventional synthetic approaches suffer from low yields, complex procedures, and toxic chemicals. In this work, we demonstrate a one-step microwave-assisted approach to prepare CsPbX NCs. The homogeneous heating and rapid temperature increment of microwave preparation facilitate the growth of CsPbX NCs, producing the NCs with high photoluminescence quantum yields up to 90%, narrow emission full-width at half-maximum, and emission color tunable from blue to red. By optimizing the preparation conditions of the microwave-assisted approach, CsPbX NCs with cation- and halide anion-controlled emission properties, tunable reaction rate, and enhanced stability are prepared. Light-emitting diode (LED) prototypes are further fabricated by employing the as-prepared CsPbX NCs as the color conversion materials on commercially available 365 nm GaN LED chips.

摘要

CsPbX（X=Cl、Br、I）纳米晶体（NCs）因其出色的光物理性能而成为照明和显示的有竞争力的发光材料。然而，传统的合成方法存在产率低、步骤复杂和使用有毒化学品等问题。在这项工作中，我们展示了一种一步微波辅助方法来制备 CsPbX NCs。微波制备的均匀加热和快速升温有利于 CsPbX NCs 的生长，得到的 NCs 具有高达 90%的高光致发光量子产率、窄的发射半峰全宽和从蓝色到红色可调谐的发射颜色。通过优化微波辅助方法的制备条件，制备了具有阳离子和卤化物阴离子可控发射性质、可调反应速率和增强稳定性的 CsPbX NCs。进一步采用所制备的 CsPbX NCs 作为商用 365nm GaN LED 芯片上的颜色转换材料，制备了发光二极管（LED）原型。

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一步法微波辐射制备卤化铯铅（CsPbX，X = Cl，Br，I）钙钛矿纳米晶。

One-Step Preparation of Cesium Lead Halide CsPbX (X = Cl, Br, and I) Perovskite Nanocrystals by Microwave Irradiation.

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