Blue light irradiation-stirred washing high luminescence and highly stable CsPbBrI2 quantum dots modified with CaO for backlight display

IF 6.3 2区材料科学 Q2 CHEMISTRY, PHYSICAL

Applied Surface Science Pub Date : 2024-11-17 DOI:10.1016/j.apsusc.2024.161796

Yanling Lin, Zhennan Wu, Enrou Mei, Jiapeng Yang, Ye He, Zhenbo Xu, Xiaojuan Liang, Xingen Hu, Ruowang Liu, Weidong Xiang

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Abstract

Perovskite quantum dots (QDs) have become the star material for liquid crystal display (LCD). However, instability affects its practical application. Herein, CsPbBrI₂ quantum dots (CsPbBrI₂ QDs) with high quantum efficiency have been successfully precipitated in situ by adding CaO to the Li-Al-Si glass substrate. The photoluminescence quantum yield (PLQY) was adjusted from 64.5 % to 87.5 %. At the same time, we adopted a new strategy of blue light irradiation-stirred water washing. When blue light irradiation and stirred water washing interact synergistically, the CsPbBrI₂ QDs detached from the glass surface, while smaller CsPbBrI₂ QDs continued to grow. This process successfully resulted in CsPbBrI₂ QDs with high luminescence intensity and high stability. Moreover, when exposed to 60°C, 90 % relative humidity (RH), and 2000 nit blue light for 120 h (h), the treated sample could retain 95 % of the original emission intensity. The color gamut of the prepared CsPbBrI₂@glass@PS light conversion film covered 122 % of the NTSC 1953 standard and 90 % of the Rec. 2020 standard. It provided great value for the commercialization of QDs in backlight display applications.

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用于背光显示屏的蓝光照射-搅拌洗涤高发光和高稳定性 CsPbBrI2 量子点（用 CaO 修饰

Perovskite 量子点（QDs）已成为液晶显示器（LCD）的明星材料。然而，其不稳定性影响了它的实际应用。在此，通过在锂-铝-硅玻璃衬底中添加 CaO，成功地在原位析出了具有高量子效率的 CsPbBrI2 量子点（CsPbBrI2 QDs）。光致发光量子产率 (PLQY) 从 64.5% 提高到 87.5%。同时，我们采用了一种新的蓝光照射-搅拌水洗策略。当蓝光照射和搅拌水洗协同作用时，CsPbBrI2 QDs 脱离玻璃表面，而较小的 CsPbBrI2 QDs 则继续生长。这一过程成功地产生了具有高发光强度和高稳定性的 CsPbBrI2 QDs。此外，在 60°C、90% 相对湿度（RH）和 2000 nit 蓝光下暴露 120 小时后，经过处理的样品仍能保持 95% 的原始发射强度。所制备的 CsPbBrI2@glass@PS光转换薄膜的色域覆盖了NTSC 1953标准的122%和Rec.这为背光显示应用中的 QDs 商业化提供了巨大价值。

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来源期刊

Applied Surface Science 工程技术-材料科学：膜

CiteScore

12.50

自引率

7.50%

发文量

3393

审稿时长

67 days

期刊介绍： Applied Surface Science covers topics contributing to a better understanding of surfaces, interfaces, nanostructures and their applications. The journal is concerned with scientific research on the atomic and molecular level of material properties determined with specific surface analytical techniques and/or computational methods, as well as the processing of such structures.