Optical properties of antimony-borate glass rods co-doped with Eu3+/Ag+ ions

IF 0.5 Q4 OPTICS

Photonics Letters of Poland Pub Date : 2021-12-30 DOI:10.4302/plp.v13i4.1119

K. Czajkowski

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Abstract

This paper presents the results of research on the luminescent properties of antimony-borate glass rods doped with europium and silver ions. The reduction of silver ions to the form of nanoparticles was carried out and the occurrence of localized plasmon resonance was demonstrated, which caused changes in the Eu3+ luminescence signal at a wavelength of 613 nm. The effect of the concentration of silver ions dopant at a constant content of europium ions on the luminescence and absorption characteristics of the produced samples was investigated. In the examined doping range, no large dependencies of spectral changes as a function of the concentration of silver ions were found. A clear quenching of the luminescence was observed due to the heating time of the doped glass matrices for the energy transition (5D0 → 7F2). Full Text: PDF ReferencesS. Kuzman, J. Perisa, V. Dordevic, I. Zekovic, I. Vukoje, Z. Antic and M. D. Dramicanin, "Surface Plasmon Enhancement of Eu3+ Emission Intensity in LaPO4/Ag Nanoparticles", Materials 13, 3071 (2020). CrossRef V.P. Prakashan, M.S. Sajna, G. Gejo, M.S. Sanu, A.C. Saritha, P.R. Biju, J. Cyriac and N.V. Unnikrishan, "Surface Plasmon Assisted Luminescence Enhancement of Ag NP/NWs-Doped SiO2-TiO2-ZrO2:Eu3+ Ternary System", Plasmonics 14, 673 (2019). CrossRef O. Malta, P. Santa-Cruz, G. Sa and F. Auzel, "Fluorescence enhancement induced by the presence of small silver particles in Eu3+ doped materials", J. Lumin., 33, 261 (1985). CrossRef O. Malta, P. Santa-Cruz, G. Sa and F. Auzel, "Time evolution of the decay of the 5Do level of Eu3+ in glass materials doped with small silver particles", Chem. Phys. Lett, 116, 396 (1985). CrossRef J. Zmojda, M. Kochanowicz, P. Miluski et al., "The influence of Ag content and annealing time on structural and optical properties of SGS antimony-germanate glass doped with Er3+ ions", Journal of Molecular Structure 1160, 428 (2018). CrossRef Ki Young Kim, Plasmonics: Principles and Applications (Croatia, InTechOpen 2012) CrossRef M.R. Dousti, M.R. Sahar, S.K. Ghoshal et al., "Up-conversion enhancement in Er3 +-Ag co-doped zinc tellurite glass: Effect of heat treatment", Journal of Non-Crystalline Solids 358, 2939 (2012). CrossRef I. Soltani, S. Hraiech, K. Horchani-Naifer et al., "Effect of silver nanoparticles on spectroscopic properties of Er3+ doped phosphate glass", Optical Materials 46, 454 (2015). CrossRef R. Schneider, E.A. de Campos, J.B.S. Mendes, J.F. Felix, P.A. Santa-Cruz, "Lead–germanate glasses: an easy growth process for silver nanoparticles and their promising applications in photonics and catalysis", RSC Advances 7 (66), 41479 (2017). CrossRef

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Eu3+/Ag+离子共掺硼酸锑玻璃棒的光学性质

本文介绍了铕和银离子掺杂硼酸锑玻璃棒发光性能的研究结果。结果表明，银离子被还原为纳米粒子，并发生局域等离子体共振，导致Eu3+在613 nm波长处的发光信号发生变化。在一定的铕离子含量下，研究了银离子掺杂浓度对制备样品的发光和吸收特性的影响。在检测的掺杂范围内，没有发现光谱变化作为银离子浓度函数的大依赖关系。在5D0→7F2的能量跃迁过程中，由于加热时间的影响，发光明显猝灭。全文:PDF参考资料陈志强，陈志强，陈志强，陈志强，“表面等离激元增强Ag / apo4纳米粒子的Eu3+发射强度”，材料学报，31(2020)。p . p . Prakashan, M.S. Sajna, G. Gejo, M.S. Sanu, A.C. Saritha, P.R. Biju, J. Cyriac和N.V. Unnikrishan，“表面等离子体辅助发光增强Ag NP/ nws掺杂SiO2-TiO2-ZrO2:Eu3+体系”，等离子体学报，14,673(2019)。CrossRef O. Malta, P. Santa-Cruz, G. Sa和F. Auzel，“小银粒子在Eu3+掺杂材料中的存在诱导荧光增强”，J. Lumin。， 33, 261(1985)。CrossRef O. Malta, P. Santa-Cruz, G. Sa和F. Auzel，“掺杂银微粒的玻璃材料中Eu3+的5Do衰变的时间演变”，化学。理论物理。Lett, 116, 396(1985)。CrossRef J. Zmojda, M. Kochanowicz, P. Miluski等，“Ag含量和退火时间对掺杂Er3+的SGS锗酸锑玻璃结构和光学性能的影响”，分子结构学报，11(6)，428(2018)。CrossRef Ki Young Kim，等离子体学:原理和应用(Croatia, InTechOpen 2012) CrossRef M.R. Dousti, M.R. Sahar, S.K. Ghoshal等，“Er3 +-Ag共掺杂碲酸锌玻璃的上转换增强:热处理的影响”，非结晶固体学报，358,2939(2012)。CrossRef I. Soltani, S. Hraiech, K. Horchani-Naifer等，“银纳米粒子对Er3+掺杂磷酸盐玻璃光谱特性的影响”，光学材料46,454(2015)。施耐德，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军，陈建军。CrossRef

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Photonics Letters of Poland OPTICS-

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1.40

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