Guo Yuxiao, Liu Haiwang, Cao Hong, Dong Xue, Wang Zhipeng, Chen Jing, Xu Chao
Institute of Nuclear and New Energy Technology, Tsinghua University, 100084, Beijing, China.
Dalton Trans. 2023 Aug 15;52(32):11265-11271. doi: 10.1039/d3dt01896b.
Investigation of the fundamental coordination chemistry between U(VI) and simple organic ligands is important to understand the chemical behavior of U(VI) in the natural environment and separation processes. In this work, the complexation of U(VI) with a common carboxylic acid, benzoic acid, has been systematically investigated through potentiometry, spectrometry and DFT calculations. Three successive complexes (UOL, UOL and UOL, L = benzoate ion) between U(VI) and benzoic acid are successfully identified in aqueous solution and their corresponding thermodynamic parameters (stability constant, enthalpy and entropy) are determined. Notably, this is the first time that the previously missing 1 : 2 and 1 : 3 (U to L) complexes in aqueous solution and their complexation thermodynamics have been reported, which would aid in more accurate prediction of the chemical behavior of U(VI) in the presence of benzoic acid. Moreover, the structures of the complexes are elucidated using DFT calculations, which show that benzoic acid coordinates to U(VI) in a bidentate form in all the complexes.
研究U(VI)与简单有机配体之间的基本配位化学对于理解U(VI)在自然环境和分离过程中的化学行为至关重要。在这项工作中,通过电位滴定法、光谱法和密度泛函理论(DFT)计算,系统地研究了U(VI)与常见羧酸苯甲酸的络合作用。在水溶液中成功鉴定出U(VI)与苯甲酸之间的三种连续络合物(UOL、UOL和UOL,L = 苯甲酸根离子),并确定了它们相应的热力学参数(稳定常数、焓和熵)。值得注意的是,这是首次报道水溶液中先前缺失的1:2和1:3(U与L)络合物及其络合热力学,这将有助于更准确地预测在苯甲酸存在下U(VI)的化学行为。此外,利用DFT计算阐明了络合物的结构,结果表明在所有络合物中苯甲酸均以双齿形式与U(VI)配位。
