Characterization and thermoluminescence study of gamma irradiated Tb-doped ZnO and undoped ZnO synthesized by spray pyrolysis method

A. Ortiz-Morales, M. García-Hipólito, E. Cruz-Zaragoza, R. Gómez-Aguilar
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Abstract

High gamma dose-resistant undoped ZnO and Tb-doped ZnO thermoluminescent (TL) micro-phosphors were prepared by the spray pyrolysis method. Scanning electron microscopy shows crystalline rods with hexagonal morphology, (0.1-0.4 µm diameter, and about 1 µm length). Raman spectra dispersion reveals a würtzite form. Photoluminescence (PL) study of irradiated zinc oxide films indicates the generation of defects produced by gamma irradiation resulting in an increased probability of electron-hole exciton recombination. PL spectrum shows emission bands from 5D4-7Fj=6,5,4,3 transitions ascribed to Tb3+ dopant in zinc oxide phosphor. X-ray diffraction patterns for both types of films growth (undoped ZnO and Tb-doped ZnO) are typical of zinc oxide crystalline structure, with no noticeable effect of Tb ions. Dosimetric properties, for both samples, show a low TL fading signal and TL reproducibility signal for undoped ZnO and Tb-doped ZnO samples was 29 and 57 %, respectively. The kinetic parameters such as activation energy E, frequency factor s, and Rm values, were obtained by Computerized Glow Curve Deconvolution (CGCD) assuming Mixed Order Kinetic model (MOK). The results show that the MOK well described the glow curves of zinc oxide films. The heating rate effects produced a broadening of glow peak located at 420 K. For purposes like radiation detector, atomic effective number (Zeff) was obtained: 27.74 and 56.47 for undoped ZnO and Tb-doped ZnO samples, respectively. The samples were exposed to gamma radiation in a wide range of 0.25–20 kGy dose. TL properties of undoped ZnO and Tb-doped ZnO samples show that these materials could be used to detect high doses in a gamma radiation field.
喷雾热解法合成γ辐照掺铽氧化锌和未掺杂氧化锌的表征及热释光研究
采用喷雾热解法制备了高抗γ剂量的未掺杂ZnO和掺杂tb的ZnO热释光微荧光粉。扫描电镜显示结晶棒呈六角形,直径0.1-0.4µm,长约1µm。拉曼光谱色散显示为w锆石形式。辐照氧化锌薄膜的光致发光(PL)研究表明,伽马辐照产生的缺陷导致电子-空穴激子复合的概率增加。发光光谱显示氧化锌荧光粉中掺杂Tb3+的5D4-7Fj=6,5,4,3跃迁的发射带。两种类型的薄膜生长(未掺杂ZnO和掺杂Tb的ZnO)的x射线衍射图都是典型的氧化锌晶体结构,没有明显的Tb离子影响。两种样品的剂量学特性表明,未掺杂ZnO和掺杂ZnO样品的TL衰减信号较低,TL重现信号分别为29%和57%。采用混合阶动力学模型(MOK),通过计算机化辉光曲线反褶积(CGCD)得到活化能E、频率因子s和Rm等动力学参数。结果表明,MOK能很好地描述氧化锌薄膜的发光曲线。加热速率效应使发光峰在420 K处展宽。对于辐射探测器等用途,未掺杂ZnO和掺杂tb的ZnO样品的原子有效数(Zeff)分别为27.74和56.47。样品暴露在0.25-20 kGy剂量范围内的伽马辐射中。未掺杂和掺杂ZnO样品的TL特性表明,这些材料可以用于高剂量γ辐射场的检测。
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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