Liu Lu, Maurice Rémi, Galland Nicolas, Moisy Philippe, Champion Julie, Montavon Gilles
IMT Atlantique, Nantes Université, CNRS, SUBATECH, F-44000 Nantes, France.
Univ Rennes, CNRS, ISCR (Institut des Sciences Chimiques de Rennes)-UMR 6226, 35000 Rennes, France.
Inorg Chem. 2022 Aug 29;61(34):13462-13470. doi: 10.1021/acs.inorgchem.2c01918. Epub 2022 Aug 17.
The Pourbaix diagram of an element displays its stable chemical forms with respect to the redox potential and pH of the solution, whose knowledge is fundamental for understanding and anticipating the chemistry of the element in a specified solution. Unlike most halogens, the Pourbaix diagram in the aqueous phase for astatine (At, = 85) is still under construction. In particular, the predominant domains of two astatine species assumed to exist under alkaline conditions, At and AtO(OH), need to be refined. Through high-performance ion-exchange chromatography, electromobility measurements, and competition experiments, the existence of At and AtO(OH) has been confirmed and the associated standard potential has been determined for the first time (0.86 ± 0.05 V vs the standard hydrogen electrode). On the basis of these results, a revised version of astatine's Pourbaix diagram is proposed, covering the three oxidation states of astatine that exist in the thermodynamic stability range of water: At(-I), At(I), and At(III) (as At, At, AtO, AtO(OH), and AtO(OH)).
一种元素的Pourbaix图展示了其相对于溶液氧化还原电位和pH值的稳定化学形态,了解这些知识对于理解和预测该元素在特定溶液中的化学性质至关重要。与大多数卤素不同,砹(At,原子序数 = 85)在水相中的Pourbaix图仍在构建中。特别是,在碱性条件下假定存在的两种砹物种At和AtO(OH)的主要区域需要进一步完善。通过高效离子交换色谱法、电动迁移率测量和竞争实验,已证实了At和AtO(OH)的存在,并首次确定了相关的标准电位(相对于标准氢电极,为0.86 ± 0.05 V)。基于这些结果,提出了砹的Pourbaix图的修订版,涵盖了在水的热力学稳定范围内存在的砹的三种氧化态:At(-I)、At(I)和At(III)(分别为At、At、AtO、AtO(OH)和AtO(OH))。
