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用于制药行业的、具有100%色纯度的掺钐铈酸钡钙钛矿琥珀色发光材料

Amber Light Emitting Samarium Incorporated Barium Cerate Perovskite with 100% Color Purity for Pharmaceutical Industry.

作者信息

S V Jasira, V P Veena, C K Shilpa, K Abhijith, K M Nissamudeen

机构信息

School of Pure and Applied Physics, Kannur University, Payyanur Campus, Edat, Kannur, Kerala, 670327, India.

Department of Nanoscience and Nanotechnology, Kannur University, Payyanur Campus, Edat, Kannur, Kerala, 670327, India.

出版信息

J Fluoresc. 2024 Jul;34(4):1561-1573. doi: 10.1007/s10895-023-03370-5. Epub 2023 Aug 8.

DOI:10.1007/s10895-023-03370-5
PMID:37552375
Abstract

Numerous structural and conductive properties of barium cerate (BC) make this material a promising candidate for energy storage applications. In this work, we demonstrated that BC can be proficiently functionalized by incorporating trivalent samarium ions to give rise to optical properties. Single-phased BaCeO:Sm (BCS) phosphors were synthesized by gel combustion technique followed by calcination. The crystal structure, optical properties, and prospective applications in LEDs were investigated systematically. By linking the information acquired from the diffuse reflectance spectra with that of the PL spectra, we better understood the electronic level structure and energy transfer mechanism. Fine yellow-orange luminescence with 100% color purity (CP) and lower Correlated Color Temperature (CCT) has been achieved via energization at 348 nm wavelength. The x = 0.02 Sm has been identified as the optimized content for the luminescence with a quantum efficiency of 34.2%. Obtained yellow-orange coordinates (0.564, 0.435) are proximate to commercialized L3 rank amber LED (Nichia corporation). The present results signify that UV light can suitably energize the BCS phosphor to get monochromatic amber light which can be used to guard medications during manufacture and storage.

摘要

铈酸钡(BC)的众多结构和导电特性使这种材料成为储能应用中有前景的候选材料。在这项工作中,我们证明了通过掺入三价钐离子可以有效地对BC进行功能化,从而产生光学特性。采用凝胶燃烧技术并随后进行煅烧合成了单相BaCeO:Sm(BCS)荧光粉。系统地研究了其晶体结构、光学特性以及在发光二极管中的潜在应用。通过将从漫反射光谱获得的信息与光致发光光谱的信息联系起来,我们更好地理解了电子能级结构和能量转移机制。通过在348 nm波长下激发,实现了具有100%色纯度(CP)和较低相关色温(CCT)的精细黄橙色发光。已确定x = 0.02的Sm为发光的优化含量,量子效率为34.2%。获得的黄橙色坐标(0.564, 0.435)接近商业化的L3等级琥珀色发光二极管(日亚化学工业株式会社)。目前的结果表明,紫外光可以适当地激发BCS荧光粉以获得单色琥珀光,可用于在药物制造和储存过程中对其进行防护。

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本文引用的文献

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Design of Novel Highly Efficient Yellow-Orange Color-Tunable Luminescence in RbSrCaPO:Eu Solid Solutions for White Light-Emitting Diodes.用于白光发光二极管的RbSrCaPO:Eu固溶体中新型高效黄橙色可调谐发光的设计
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