Ca2+ enhanced far-red emission performance and efficiency of SrGd2Al2O7:Mn4+ phosphor for the potential application in plant growth lighting

荧光粉 兴奋剂 离子 发光 发射强度 固态照明 材料科学 量子效率 光电子学 热稳定性 红灯 化学 分析化学(期刊) 发光二极管 植物 环境化学 有机化学 生物
作者
Yi Yu,Kai Shao,Chonghui Niu,Mingjie Dan,Zhibin Wang,Yingying Wang,Jie Chen,Jiani Luo,Shiying Liu,Zhi Xie
出处
期刊:Journal of Chemical Physics [American Institute of Physics]
卷期号:158 (23) 被引量:6
标识
DOI:10.1063/5.0149120
摘要

Mn-based phosphors with the wavelength of 700–750 nm are an important category of far-red phosphors that have promising potential in the application of plant lighting, and the higher ability of the far-red light emitting of the phosphors is beneficial to plant growth. Herein, a series of Mn4+- and Mn4+/Ca2+-doped double perovskite SrGd2Al2O7 red-emitting phosphors with wavelengths centered at about 709 nm were successfully synthesized by means of a traditional high-temperature solid-state method. First-principles calculations were conducted to explore the intrinsic electronic structure of SrGd2Al2O7 for a better understanding of the luminescence behavior in this material. Extensive analysis demonstrates that the introduction of Ca2+ ions into the SrGd2Al2O7:Mn4+ phosphor has significantly boosted the emission intensity, internal quantum efficiency, and thermal stability by 170%, 173.4%, and 113.7%, respectively, which are superior to those of most other Mn4+-based far-red phosphors. The mechanism of the concentration quench effect and the positive effect of co-doping Ca2+ ions in the phosphor were extensively explored. All studies suggest that the SrGd2Al2O7:0.1%Mn4+, 11%Ca2+ phosphor is a novel phosphor that can be used to effectively promote the growth of plants and regulate the flowering cycle. Therefore, promising applications can be anticipated from this new phosphor.
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