A novel Sm3+-activated Li3BaSrLn3(MO4)8 [Ln = La, Gd, and Y; M = Mo and W] deep red-emitting phosphors for plant cultivation and white LEDs

IF 3.7 3区工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Information Display Pub Date : 2020-10-18 DOI:10.1080/15980316.2020.1831630

Marikumar Rajendran, Kasturi Singh, S. Vaidyanathan

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引用次数: 10

Abstract

Deep red phosphor-based LEDs play a crucial role in plant growth applications, where the LED emission covers the phytochrome (Pr) absorption. In this context, a series of Sm3+-activated Li3BaSrLn3(MO4)8:Sm3+ [Ln = La Gd and Y; M = Mo and W] deep red phosphors were synthesized using the solid-state method. The outcome of the PXRD patterns suggests that the synthesized phosphors were crystallized in a monoclinic structure with the space group C2/c. SEM analysis was executed to study the morphology of the phosphors, and an FT-IR study was performed to study the stretching frequency of the MO/W-O bond in the (Mo/W)O4 groups. All the Sm3+-activated phosphors showed intense emission at 646 nm due to their 4G5/2→6H9/2 transition and exhibited excellent thermal stability (> 72% at 423K). The selected phosphors showed internal quantum efficiency at around 30%. The pc-LEDs were fabricated with the combination of near-UV LED and the synthesized deep-red phosphors. Besides, the emission spectrum of the fabricated LED was compared with the phytochrome Pr absorption spectrum for de plant growth application. These results suggest that the synthesized phosphor can be useful in the white LED fabrication to improve the CRI and can also be beneficial in the plant growth field.

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新型Sm3+活化Li3BaSrLn3(MO4)8 [Ln = La, Gd, Y]M = Mo和W]深红色发光荧光粉，用于植物栽培和白光led

深红磷基LED在植物生长应用中起着至关重要的作用，其中LED的发射覆盖了光敏色素(Pr)的吸收。在此背景下，一系列Sm3+活化的Li3BaSrLn3(MO4)8:Sm3+ [Ln = La Gd and Y;采用固态法制备了M = Mo和W]深红色荧光粉。PXRD分析结果表明，合成的荧光粉呈单斜晶型，具有C2/c空间基团。用SEM分析研究了荧光粉的形貌，用FT-IR研究了(MO/W)O4基团中MO/W- o键的拉伸频率。所有Sm3+激活的荧光粉由于其4G5/2→6H9/2的转变在646 nm处表现出强烈的发射，并表现出优异的热稳定性(423K时> 72%)。所选荧光粉的内量子效率约为30%。将近紫外LED与合成的深红色荧光粉相结合，制备了pc-LED。此外，还将制备的LED的发射光谱与光敏色素Pr的吸收光谱进行了比较。这些结果表明，合成的荧光粉可用于白光LED的制造，以提高显色指数，也可用于植物生长领域。

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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