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基于化学选择性聚合物基质的钚直接同位素稀释α能谱法

Chemically selective polymer substrate based direct isotope dilution alpha spectrometry of Pu.

作者信息

Paul Sumana, Pandey Ashok K, Shah R V, Aggarwal S K

机构信息

Fuel Chemistry Division, Bhabha Atomic Research Centre, Trombay, Mumbai 400 085, India.

Radiochemistry Division, Bhabha Atomic Research Centre, Trombay, Mumbai 400 085, India.

出版信息

Anal Chim Acta. 2015 Jun 9;878:54-62. doi: 10.1016/j.aca.2015.04.046. Epub 2015 Apr 27.

Abstract

Quantification of actinides in the complex environmental, biological, process and waste streams samples requires multiple steps like selective preconcentration and matrix elimination, solid source preparations generally by evaporation or electrodeposition, and finally alpha spectrometry. To minimize the sample manipulation steps, a membrane based isotope dilution alpha spectrometry method was developed for the determination of plutonium concentrations in the complex aqueous solutions. The advantages of this method are that it is Pu(IV) selective at 3M HNO3, high preconcentration factor can be achieved, and obviates the need of solid source preparation. For this, a thin phosphate-sulfate bifunctional polymer layer was anchored on the surface of microporous poly(ethersulfone) membrane by UV induced surface grafting. The thickness of the bifunctional layer on one surface of the poly(ethersulfone) membrane was optimized. The thickness, physical and chemical structures of the bifunctional layer were studied by secondary ionization mass spectrometry (SIMS), scanning electron microscopy (SEM) and SEM-EDS (energy-dispersive spectroscopy). The optimized membrane was used for preconcentration of Pu(IV) from aqueous solutions having 3-4M HNO3, followed by direct quantification of the preconcentrated Pu(IV) by isotope dilution alpha spectrometry using (238)Pu spike. The chemical recovery efficiency of Pu(IV) was found to be 86±3% below Pu(IV) loading capacity (1.08 μg in 2×1 cm(2)) of the membrane sample. The experiments with single representative actinides indicated that Am(III) did not sorb to significant extent (7%) but U(VI) sorbed with 78±3% efficiency from the solutions having 3M HNO3 concentration. However, Pu(IV) chemical recovery in the membrane remained unaffected from the solution containing 1:1000 wt. proportion of Pu(IV) to U(VI). Pu concentrations in the (U, Pu)C samples and in the irradiated fuel dissolver solutions were determined. The results thus obtained were found to be in good agreement with those obtained by conventional alpha spectrometry, biamperometry and thermal ionization mass spectrometry.

摘要

对复杂环境、生物、过程和废物流样品中的锕系元素进行定量分析需要多个步骤,如选择性预浓缩和基质消除、通常通过蒸发或电沉积进行固体源制备,最后进行α光谱分析。为了尽量减少样品处理步骤,开发了一种基于膜的同位素稀释α光谱法,用于测定复杂水溶液中的钚浓度。该方法的优点是在3M硝酸中对Pu(IV)具有选择性,可以实现高预浓缩因子,并且无需进行固体源制备。为此,通过紫外诱导表面接枝将一层薄的磷酸 - 硫酸双功能聚合物层固定在微孔聚醚砜膜表面。对聚醚砜膜一个表面上的双功能层厚度进行了优化。通过二次离子质谱(SIMS)、扫描电子显微镜(SEM)和SEM能谱(EDS)研究了双功能层的厚度、物理和化学结构。将优化后的膜用于从含有3 - 4M硝酸的水溶液中预浓缩Pu(IV),然后使用(238)Pu示踪剂通过同位素稀释α光谱法直接定量预浓缩的Pu(IV)。发现Pu(IV)的化学回收效率在膜样品的Pu(IV)负载量(2×1 cm² 中为1.08 μg)以下为86±3%。对单一代表性锕系元素的实验表明,Am(III)的吸附程度不显著(7%),但在3M硝酸浓度的溶液中,U(VI)的吸附效率为78±3%。然而,膜中Pu(IV)的化学回收不受含有1:1000重量比的Pu(IV)与U(VI)的溶液影响。测定了(U, Pu)C样品和辐照燃料溶解液中的钚浓度。结果发现,所得结果与通过传统α光谱法、双安培法和热电离质谱法获得的结果高度一致。

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