双相萃取体系中镅（V）的氧化还原稳定化提高了镅/镧系元素的分离效率。

Redox stabilization of Am(v) in a biphasic extraction system boosts americium/lanthanides separation efficiency.

作者信息

Dong Xue, Hao Huaixin, Chen Jing, Wang Zhipeng, Xu Chao

机构信息

Institute of Nuclear and New Energy Technology, Tsinghua University 100084 Beijing China

出版信息

Chem Sci. 2023 Dec 26;15(6):2118-2122. doi: 10.1039/d3sc06240f. eCollection 2024 Feb 7.

DOI:10.1039/d3sc06240f

PMID:38332823

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10848673/

Abstract

Americium (Am) is a key radioactive element in consideration in nuclear waste treatment. Separation of Am from the fission products, lanthanides, is a prerequisite to minimize the hazardous impact of Am and make utilization of rare Am isotopes, but it represents a great challenge due to the chemical similarity between the two groups of elements. Herein, we realize the separation by first oxidizing Am(iii) to high valent Am(vi) and then converting it to Am(v) in a biphasic extraction system with Bi(v) oxidant incorporated in an organic phase. Am(v) is highly stabilized during the separation process and this leads to record high Ln/Am separation factors (>10) in a single contact over a wide range of acidities.

摘要

镅（Am）是核废料处理中备受关注的关键放射性元素。将镅与裂变产物、镧系元素分离，是将镅的有害影响降至最低并利用稀有镅同位素的前提条件，但由于这两组元素在化学性质上相似，这一过程极具挑战性。在此，我们通过在含有Bi(v)氧化剂的有机相双相萃取体系中，先将Am(iii)氧化为高价态的Am(vi)，再将其转化为Am(v)来实现分离。在分离过程中，Am(v)高度稳定，这使得在广泛的酸度范围内单次接触就能实现创纪录的高Ln/Am分离因子（>10）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/382e/10848673/604a17587d06/d3sc06240f-f1.jpg

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双相萃取体系中镅（V）的氧化还原稳定化提高了镅/镧系元素的分离效率。

Redox stabilization of Am(v) in a biphasic extraction system boosts americium/lanthanides separation efficiency.

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双相萃取体系中镅（V）的氧化还原稳定化提高了镅/镧系元素的分离效率。

Redox stabilization of Am(v) in a biphasic extraction system boosts americium/lanthanides separation efficiency.

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