Effects of cerium oxide and cerium sulfate on the optical behavior of synthesized garnet glass ceramics

A. Faeghinia
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Abstract

In this study, the YAG silicate glasses containing the cerium sulfate and cerium oxide salts (17YO3-33Al2O3-40SiO2-2AlF3-3NaF-2CeO2-3B2O3), separately were produced by melting method and glass ceramics were produced by heat treatment of base glasses. According to Photo Luminescence spectrums of both glasses there were emissions in the range of 466 and 435 nm wavelengths related to cerium ions. It was shown that by heating treatment, garnet crystal (in sulfated sample) formed less than the sample with cerium oxide. The emission spectra of both glass-ceramics, when excited at 240 nm, fall within the wavelength range of 460 nm. Also, the 534 and 660 nm emissions wavelengths were obtained by 340 nm wavelength excitation. Heat treatments were done by oxide atmosphere in tubular furnace (single step), SPS sintered powder and in hydrogen atmosphere (by two steps heating). According to XRD results the 24 hrs. heat treating time and the 1060 °C temperature affect the entry of cerium into the garnet structure. Finally, by comparing the spectroscopic results the optical response of the garnet glass-ceramic synthesized in the hydrogen atmosphere was obtained at 400 nm wavelength that indicated this garnet can be applied in the LED industry.
氧化铈和硫酸铈对合成石榴石玻璃陶瓷光学行为的影响
本研究采用熔融法分别制备了含有硫酸铈盐和氧化铈盐的 YAG 硅酸盐玻璃(17YO3-33Al2O3-40SiO2-2AlF3-3NaF-2CeO2-3B2O3),并通过对基底玻璃进行热处理制备了玻璃陶瓷。根据这两种玻璃的光致发光光谱,在 466 和 435 纳米波长范围内有与铈离子有关的发射。结果表明,通过加热处理,石榴石晶体(在硫酸盐样品中)的形成比氧化铈样品少。两种玻璃陶瓷在 240 纳米波长下激发时的发射光谱都在 460 纳米波长范围内。此外,在 340 纳米波长的激发下,还可获得 534 纳米和 660 纳米的发射光谱。热处理分别在管式炉(单步)、SPS 烧结粉末和氢气环境(两步加热)中进行。根据 XRD 结果,24 小时的热处理时间和 1060 °C 的温度会影响铈进入石榴石结构。最后,通过比较光谱结果,在氢气环境中合成的石榴石玻璃陶瓷在 400 纳米波长处获得了光学响应,表明这种石榴石可应用于 LED 行业。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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