The structure transition and luminescence performance of a high moisture resistant KNaNbOF5:Mn4+ red phosphor

IF 5.1 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Materials Chemistry C Pub Date : 2024-11-22 DOI:10.1039/D4TC04061A

Daoyuan Ma, Yunzheng Liu, Wenfa Fang, Jinliang Huang and Libin Xia

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Abstract

The relationship between the luminescence performance and structure of an Mn⁴⁺-doped oxyfluoride phosphor is a key factor in developing an incredible phosphor. Herein, a pair of novel KNaNbOF₅:Mn⁴⁺ phosphors (α- and β-type) was successfully synthesized by controlling HF usage. The structures, morphologies and luminescence properties, including thermal quenching and moisture resistance, of the phosphors were systematically studied. The optimal Mn⁴⁺ doping concentrations of the two phosphors were 1% mol. The α-type phosphor shows stronger luminous intensity and better thermal quenching resistance. Its thermal quenching temperature (T_1/2) is about 350 K and quantum efficiency is 60.74%. Correspondingly, the β-type phosphor exhibits a strong zero phonon line emission located at 626 nm and an obvious red shift. Fluorescence lifetimes were fitted to 2.18 ms and 1.07 ms for the α- and β-type phosphors, respectively. Both of the phosphors exhibit excellent moisture resistances with 90.6% and 88.1% initial intensities after 24 h water immersion. The above results demonstrate the promising application of the as-prepared KNaNbOF₅:Mn⁴⁺ phosphors in the field of warm-WLEDs.

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高抗湿性KNaNbOF5:Mn4+红色荧光粉的结构转变和发光性能

掺杂Mn4+的氟化氧荧光粉的发光性能与结构之间的关系是开发优异荧光粉的关键因素。本文通过控制HF的使用，成功合成了一对新型的KNaNbOF5:Mn4+荧光粉（α-型和β型）。系统地研究了荧光粉的结构、形态和发光性能，包括热猝灭性和耐湿性。两种荧光粉的最佳掺杂浓度均为1% mol。α型荧光粉具有较强的发光强度和较好的耐热猝灭性。其热猝灭温度（T1/2）约为350 K，量子效率为60.74%。相应地，β型荧光粉在626 nm处表现出强的零声子线发射和明显的红移。α型和β型荧光粉的荧光寿命分别为2.18 ms和1.07 ms。水浸24 h后，两种荧光粉的抗湿性分别为90.6%和88.1%。以上结果证明了制备的KNaNbOF5:Mn4+荧光粉在暖wled领域的应用前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Materials Chemistry C MATERIALS SCIENCE, MULTIDISCIPLINARY-PHYSICS, APPLIED

CiteScore

10.80

自引率

6.20%

发文量

1468

期刊介绍： The Journal of Materials Chemistry is divided into three distinct sections, A, B, and C, each catering to specific applications of the materials under study: Journal of Materials Chemistry A focuses primarily on materials intended for applications in energy and sustainability. Journal of Materials Chemistry B specializes in materials designed for applications in biology and medicine. Journal of Materials Chemistry C is dedicated to materials suitable for applications in optical, magnetic, and electronic devices. Example topic areas within the scope of Journal of Materials Chemistry C are listed below. This list is neither exhaustive nor exclusive. Bioelectronics Conductors Detectors Dielectrics Displays Ferroelectrics Lasers LEDs Lighting Liquid crystals Memory Metamaterials Multiferroics Photonics Photovoltaics Semiconductors Sensors Single molecule conductors Spintronics Superconductors Thermoelectrics Topological insulators Transistors