背光
材料科学
色度
光致发光
光电子学
量子点
量子产额
堆积
显色指数
发光
光学
无定形固体
量子效率
薄膜
光子学
聚合物
激发
发光二极管
纳米技术
作者
Xihan Luo,Yuhui Dong,Weichao Qi,Hong Zhu,Yuyao Feng,Danni Yan,Yousheng Zou,Haibo Zeng
出处
期刊:Small
[Wiley]
日期:2025-11-10
卷期号:: e10399-e10399
标识
DOI:10.1002/smll.202510399
摘要
Abstract Non‐toxic Ag‐In‐Ga‐S (AIGS) quantum dots (QDs) backlight film has garnered significant attention in white‐LEDs (WLEDs) as down‐conversion luminescent materials. However, current research on AIGS‐based backlight films still faces challenges like low photoluminescence quantum yield (PLQY), polymer incompatibility, etc. This study demonstrates an innovative in situ aqueous‐phase synthesis method for producing a high PLQY red‐emission AIGS@PVA backlight film. The red‐emission AIGS QDs are grown in situ in a PVA matrix, while the surface defects are simultaneously passivated by PVA. Red‐emission AIGS@PVA films with a PLQY of 82% are successfully fabricated, exhibiting excellent uniformity, surface flatness, and flexibility. Furthermore, a WLED is successfully fabricated by stacking the red‐emission AIGS@PVA film on a green‐emission film through the excitation of a blue chip. The WLED achieved a relatively standard white light with CIE chromaticity coordinates of (0.32, 0.32), color temperature of 6403 K, and color rendering index (CRI) of 94. The realization of high PLQY in situ aqueous‐phase film will push the practical application of backlight film.
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