Preparation, Characterization, and Luminescence Properties of Orthorhombic Sodium Sulphate

Physics Research International Pub Date : 2013-12-24 DOI:10.1155/2013/641631

Y. Vidya, B. N. Lakshminarasappa

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引用次数: 14

Abstract

A highly efficient thermoluminescence Na2SO4 phosphor with thenardite polymorphic structure was prepared by simple slow evaporation technique followed by subsequent calcination at 200°C, 400°C, and 600°C for 4 h and the resultant crystals were characterized by various analytical techniques. All the samples exhibited thermodynamically stable thenardite phase and the grain growth was increased for the calcined samples. SEM analysis indicated the fine distribution of twinned orthogonal prism and pyramidal structure without any agglomeration. The electron spin resonance spectroscopy showed the existence of radicals as trap centre. The thermoluminescence behavior suggested the charge carrier recombination dynamics in the thenardite sample followed second-order kinetics. The trapping parameters such as activation energy (), order of kinetics (), and frequency factor () have been determined using Chen’s peak shape method. Further fading of the TL intensity of Na2SO4 showed that thenardite is quite suitable for radiation dosimetry even up to 15 days. The photoluminescence band of Na2SO4 reduced in its intensity after γ-irradiation, suggesting that defects are unstable and decay rapidly.

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正交硫酸钠的制备、表征及发光性能

采用简单的慢蒸发技术，在200°C、400°C和600°C条件下煅烧4 h，制备了一种具有红锰矿多晶结构的高效热释光Na2SO4荧光粉，并用各种分析技术对所得晶体进行了表征。所有样品均表现出热力学稳定的德纳第石相，煅烧后的样品晶粒生长加快。扫描电镜分析表明，双正交棱柱和锥体结构分布精细，无团聚现象。电子自旋共振谱显示了自由基作为阱中心的存在。热释光行为表明，芒硝样品中的载流子复合动力学遵循二级动力学。利用Chen峰形法确定了捕获参数活化能()、动力学阶数()和频率因子()。Na2SO4的TL强度进一步减弱，表明德纳铁在15天内仍然适合作辐射剂量测定。经γ辐照后，Na2SO4的光致发光带强度降低，表明缺陷不稳定且衰变迅速。

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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Physics Research International

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