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Structural, luminescent properties and chemical state analysis of YAG:Ce nanoparticle-based films_上海

上海光学精密机械研究所 免费考研网/2018-05-06

外文题目: Structural, luminescent properties and chemical state analysis of YAG:Ce nanoparticle-based films
作者: Wang, Bin; Qi, Hongji; Han, Hetong; Song, Zhaohui; Chen, Jianyu; Shao, Jianda
刊名: Opt. Mater. Express
年: 2016 卷: 6 期: 1 页: 155--165
英文关键词:

YTTRIUM-ALUMINUM-GARNET; GLYCOTHERMAL METHOD; SINGLE-CRYSTALS; THIN-FILMS; CE; PHOTOLUMINESCENCE; CERAMICS; PHOSPHORS; ROUTE; XPS
英文摘要:
Y3Al5O12: Ce (YAG:Ce) nanoparticles need annealing treatment at high temperature to transform the amorphous precursors to crystalline YAG phase. However, little is known about Ce chemical state analysis and photoluminescence (PL) properties of YAG:Ce nanoparticles with the different annealing temperatures and atmospheres. In this paper, amorphous nanoparticle-based YAG:Ce films, prepared by electron beam deposition technique on fused silica substrates, have been annealed at different conditions. Ce3+, Ce4+ states and Ce3+/Ce4+ atomic ratio have been distinctly separated and calculated by X-ray photoelectron spectroscopy (XPS). Combined Ce3+/Ce4+ atomic ratio with the microstructures, the Ce chemical state modification and PL properties of YAG: Ce films with different annealing treatments have been investigated throughout. Low temperature annealing in air can cause oxidation of Ce3+, higher temperature (>= 750 degrees C) annealing in air can cause partial reduction of Ce4+ due to the high-temperature pyrolysis. In this paper, value of Ce3+/Ce4+ is the maximum after 850 degrees C annealing in H-2, and YAG: Ce film annealed in H-2 has the maximum luminous intensity, which could be proposed to the increased Ce3+ content. According to the systematical research and analysis, one can find that the Ce3+ content controls the luminescence efficiency. This paper provides a feasible approach to produce YAG: Ce nanoparticle-based films for the practical applications, and provides the understanding about YAG: Ce luminescent properties. (C)2015 Optical Society of America


文献类型: 期刊论文
正文语种: English
收录类别: SCIEI
DOI: 10.1364/OME.6.000155


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