Laboratoire SUBATECH, UMR CNRS 6457, IN2P3/EMN Nantes/Université De Nantes, 4 Rue Alfred Kastler, BP 20722, Nantes Cedex 3, 44307, France.
Laboratoire CEISAM, UMR CNRS 6230, Université De Nantes, 2 Rue De La Houssinière, BP 92208, Nantes Cedex 3, 44322, France.
J Comput Chem. 2016 Jun 5;37(15):1345-54. doi: 10.1002/jcc.24326. Epub 2016 Apr 5.
The main-group 6p elements did not receive much attention in the development of recent density functionals. In many cases it is still difficult to choose among the modern ones a relevant functional for various applications. Here, we illustrate the case of astatine species (At, Z = 85) and we report the first, and quite complete, benchmark study on several properties concerning such species. Insights on geometries, transition energies and thermodynamic properties of a set of 19 astatine species, for which reference experimental or theoretical data has been reported, are obtained with relativistic (two-component) density functional theory calculations. An extensive set of widely used functionals is employed. The hybrid meta-generalized gradient approximation (meta-GGA) PW6B95 functional is overall the best choice. It is worth noting that the range-separated HSE06 functional as well as the old and very popular B3LYP and PBE0 hybrid-GGAs appear to perform quite well too. Moreover, we found that astatine chemistry in solution can accurately be predicted using implicit solvent models, provided that specific parameters are used to build At cavities. © 2016 Wiley Periodicals, Inc.
主族 6p 元素在最近密度泛函的发展中并没有受到太多关注。在许多情况下,对于各种应用,仍然难以在现代密度泛函中进行选择。在这里,我们以砹(At,Z=85)为例来说明这一情况,并报告了针对此类物质的若干性质的第一项也是相当完整的基准研究。利用相对论(双分量)密度泛函理论计算,获得了 19 种砹物种的一系列几何形状、跃迁能量和热力学性质的深入见解,这些物种都有参考实验或理论数据的报道。使用了广泛的功能集。混合泛函 meta-GGA(meta-GGA)PW6B95 泛函总体上是最佳选择。值得注意的是,具有间隔的 HSE06 泛函以及旧的和非常流行的 B3LYP 和 PBE0 混合泛函也表现得相当好。此外,我们发现使用隐式溶剂模型可以准确预测溶液中的砹化学,只要使用特定参数来构建 At 空腔。©2016 Wiley Periodicals, Inc.
