Coordination chemistry insight into the extraction of the neptunyl(VI, V) ions by tributylphosphate (TBP): a spectrophotometric, thermodynamic, and theoretical study

IF 1.6 3区化学 Q3 CHEMISTRY, ANALYTICAL

Journal of Radioanalytical and Nuclear Chemistry Pub Date : 2025-09-11 DOI:10.1007/s10967-025-10373-y

Yuning Yang, Yanmei Chen, Zhijin Zhao, Congzhi Wang, Taoxiang Sun

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引用次数: 0

Abstract

Both NpO₂²⁺ and NpO₂⁺ exist as linear dioxo-cations in aqueous solutions, but they show dramatically different extraction behavior by tributylphosphate (TBP). The mechanism underlying this difference remains unclear. In this work, the complexation of TBP with NpO₂²⁺ and NpO₂⁺ in organic solutions is detected by spectrophotometric and microcalorimetric titrations and theoretical calculations. NpO₂²⁺ can form 1:1 and 1:2 complexes with TBP, and the stability constants decrease with the increase in water content from 0.5% to 1.5%. In contrast, NpO₂⁺ can only form a 1:1 complex with TBP at 0.5% water content and no complexation is observed at higher water content. The enthalpies and entropies of the complexation of TBP with NpO₂²⁺ and NpO₂⁺ at 0.5% water content are obtained by microcalorimetric titrations, indicating the formation of inner-sphere Np(VI)-TBP complex and outer-sphere Np(V)-TBP complex. Based on the experimental results, the structures of the extracted complexes and their extraction energies are obtained by density functional theory (DFT) calculations. The extraction energies for Np(VI) and Np(V) by TBP are positive and negative, respectively, consistent with the extraction behavior of the neptunyl ions by TBP. Results in this work provide structural and energetic insights into the mechanism for the differences in the extraction of Np(VI, V) by TBP. Extractant that can remove the water molecules from the hydrated NpO₂⁺ ion should be selected to extract NpO₂⁺ into the organic phase.

Graphical Abstract

查看原文本刊更多论文

配位化学对磷酸三丁酯（TBP）萃取海王星基（VI， V）离子的洞察：分光光度法，热力学和理论研究

NpO22+和NpO2+均以线性二氧离子形式存在于水溶液中，但它们在磷酸三丁酯（TBP）萃取过程中表现出明显不同的行为。这种差异背后的机制尚不清楚。本研究通过分光光度法、微量热滴定法和理论计算，检测了TBP与NpO22+和NpO2+在有机溶液中的络合作用。NpO22+可与TBP形成1:1和1:2的配合物，其稳定性常数随含水量从0.5%增加到1.5%而降低。相反，NpO2+在0.5%的水含量下只能与TBP形成1:1的配合物，在更高的水含量下没有观察到络合作用。用微量热滴定法测定了NpO22+和NpO2+与TBP在0.5%水浓度下的络合焓和熵，表明TBP形成了内球Np(VI)-TBP配合物和外球Np(V)-TBP配合物。根据实验结果，通过密度泛函理论（DFT）计算得到萃取配合物的结构及其萃取能。TBP对Np（VI）和Np(V)的萃取能分别为正、负，与TBP对海王星基离子的萃取行为一致。这项工作的结果为TBP提取Np（VI， V）的差异机制提供了结构和能量上的见解。要将NpO2+萃取到有机相中，应选择能除去水合NpO2+离子中的水分子的萃取剂。图形抽象

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来源期刊

Journal of Radioanalytical and Nuclear Chemistry 化学-分析化学

CiteScore

2.80

自引率

18.80%

发文量

504

审稿时长

2.2 months

期刊介绍： An international periodical publishing original papers, letters, review papers and short communications on nuclear chemistry. The subjects covered include: Nuclear chemistry, Radiochemistry, Radiation chemistry, Radiobiological chemistry, Environmental radiochemistry, Production and control of radioisotopes and labelled compounds, Nuclear power plant chemistry, Nuclear fuel chemistry, Radioanalytical chemistry, Radiation detection and measurement, Nuclear instrumentation and automation, etc.