Emission characteristics of ZnO-TiO2 upconversion scintillator containing Er3+ and Yb3+ using MOD method

T. Nonaka, T. Ban, Shin-ichi Yamamoto
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引用次数: 2

Abstract

The metal organic decomposition (MOD) method enables the coating of any oxide material via atmospheric baking of a solution applied to a substrate and enables the fabrication of thin films via simple processes such as using spin coaters. We used titanium oxide, zinc oxide (ZnO), ytterbium oxide, and erbium oxide as MOD solutions. We mixed Ti, Zn, Yb, and Er at arbitrary mixing ratios, applied them on substrates, and then heated them at 1000°C for 4 h under atmosphere. We found that the maximum value for luminance of the upconversion (UC) scintillator can be obtained with mixture ratios of the base material Ti : Zn = 1 : 1 and Yb : Er additives = 0.06 : 0.02. When Yb : Er ratios were from 1:3 to 3:1, a 550 nm green light and 650 nm red light were observed. Moreover, by varying the mixture ratio of RE elements, the UC emission intensity can be controlled. As a result, the UC scintillators produced via the MOD method show the potential for use as multi-functional materials in displays and solid-state illumination.
含Er3+和Yb3+的ZnO-TiO2上转换闪烁体的MOD发射特性
金属有机分解(MOD)方法可以通过施加在基材上的溶液的大气烘烤来涂层任何氧化物材料,并且可以通过使用旋转涂层机等简单工艺制造薄膜。我们使用氧化钛,氧化锌(ZnO),氧化镱和氧化铒作为MOD溶液。我们将Ti、Zn、Yb和Er以任意混合比例混合,将它们涂在衬底上,然后在1000℃下常压加热4小时。我们发现,当基材Ti: Zn = 1:1、添加剂Yb: Er = 0.06: 0.02时,上转换闪烁体的亮度达到最大值。当Yb: Er比为1:3 ~ 3:1时,观察到550 nm的绿光和650 nm的红光。此外,通过改变稀土元素的混合比例,可以控制UC的发射强度。因此,通过MOD方法生产的UC闪烁体显示出在显示器和固态照明中作为多功能材料使用的潜力。
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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