Luminescence properties of Dy3+, Sm3+ codoped 20SiO2-20CaO-60P2O5 glass

IF 3.3 3区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Pingsheng Yu, Buxin Wang, Ran Yang, Jun Xu
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引用次数: 0

Abstract

Luminescence and energy-transfer in xDy2O3ySm2O3–20SiO2–20CaO–60P2O5 (x = 0.3, 0.5, 0.8; y = 0.5, 1.0, 1.5) glasses were investigated. The glass samples were synthetized by conventional melt quenching method. The combined luminescence of Dy3+ and Sm3+ ions in phosphosilicate glass was systematically measured. When excited by 361 nm, 373 nm, and 400 nm excitation light, Dy3+ and Sm3+ ions can emit light simultaneously. The glass sample 0.8Dy2O3–0.5Sm2O3–20SiO2–20CaO–60P2O5 under 373 nm excitation presents a white light emission (the color coordinates are x = 0.3386, y = 0.3359) in the CIE diagram, and the correlated color temperature (CCT) is about 6000 K. The decay time test shows that there may be energy transfer from Dy to Sm. The Dy3+, Sm3+ codoped 20SiO2–20CaO–60P2O5 glass will be further studied as a white light source in future.

掺杂 Dy3+、Sm3+ 的 20SiO2-20CaO-60P2O5 玻璃的发光特性
研究了 xDy2O3-ySm2O3-20SiO2-20CaO-60P2O5 (x = 0.3, 0.5, 0.8; y = 0.5, 1.0, 1.5) 玻璃中的发光和能量传递。玻璃样品采用传统的熔融淬火法合成。系统测量了磷硅酸盐玻璃中 Dy3+ 和 Sm3+ 离子的联合发光。在 361 nm、373 nm 和 400 nm 激发光的激发下,Dy3+ 和 Sm3+ 离子可以同时发光。玻璃样品 0.8Dy2O3-0.5Sm2O3-20SiO2-20CaO-60P2O5 在 373 nm 激发下呈现出 CIE 图中的白光发射(色坐标为 x = 0.3386,y = 0.3359),相关色温(CCT)约为 6000 K。今后将对掺杂 Dy3+、Sm3+ 的 20SiO2-20CaO-60P2O5 玻璃作为白光光源进行进一步研究。
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来源期刊
Optical and Quantum Electronics
Optical and Quantum Electronics 工程技术-工程:电子与电气
CiteScore
4.60
自引率
20.00%
发文量
810
审稿时长
3.8 months
期刊介绍: Optical and Quantum Electronics provides an international forum for the publication of original research papers, tutorial reviews and letters in such fields as optical physics, optical engineering and optoelectronics. Special issues are published on topics of current interest. Optical and Quantum Electronics is published monthly. It is concerned with the technology and physics of optical systems, components and devices, i.e., with topics such as: optical fibres; semiconductor lasers and LEDs; light detection and imaging devices; nanophotonics; photonic integration and optoelectronic integrated circuits; silicon photonics; displays; optical communications from devices to systems; materials for photonics (e.g. semiconductors, glasses, graphene); the physics and simulation of optical devices and systems; nanotechnologies in photonics (including engineered nano-structures such as photonic crystals, sub-wavelength photonic structures, metamaterials, and plasmonics); advanced quantum and optoelectronic applications (e.g. quantum computing, memory and communications, quantum sensing and quantum dots); photonic sensors and bio-sensors; Terahertz phenomena; non-linear optics and ultrafast phenomena; green photonics.
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