Theoretical division, Los Alamos National Laboratory, Los Alamos, New Mexico, 87545, USA.
Laboratoire de Chimie et Physique Quantiques, CNRS, Université Toulouse III, 118 route de Narbonne, 31062, Toulouse, France.
Chemistry. 2019 Nov 27;25(66):15112-15122. doi: 10.1002/chem.201903141. Epub 2019 Oct 30.
Two series of lanthanide complexes have been chosen to analyze trends in the magnetic properties and crystal field parameters (CFPs) along the two series: The highly symmetric LnZn (picHA) series (Ln=Tb, Dy, Ho, Er, Yb; picHA=picolinohydroxamic acid) and the [Ln(dpa) ](C H N ) ⋅3H O series (Ln=Ce-Yb; dpa=2,6-dipicolinic acid) with approximate three-fold symmetry. The first series presents a compressed coordination sphere of eight oxygen atoms whereas in the second series, the coordination sphere consists of an elongated coordination sphere formed of six oxygen atoms. The CFPs have been deduced from ab initio calculations using two methods: The AILFT (ab initio ligand field theory) method, in which the parameters are determined at the orbital level, and the ITO (irreducible tensor operator) decomposition, in which the problems are treated at the many-electron level. It has been found that the CFPs are transferable from one derivative to another, within a given series, as a first approximation. The sign of the second-order parameter differs in the two series, reflecting the different environments. It has been found that the use of the strength parameter S allows for an easy comparison between complexes. Furthermore, in both series, the parameters have been found to decrease in magnitude along the series, and this decrease is attributed to covalent effects.
选择了两个镧系元素配合物系列来分析沿这两个系列的磁性质和晶体场参数 (CFPs) 的趋势:高度对称的 LnZn(picHA)系列(Ln=Tb、Dy、Ho、Er、Yb;picHA=吡啶羟肟酸)和近似三配位的[Ln(dpa) ](C H N ) ⋅3H O 系列(Ln=Ce-Yb;dpa=2,6-二吡啶甲酸)。第一个系列具有八个氧原子的压缩配位球,而在第二个系列中,配位球由六个氧原子形成的拉长配位球组成。使用两种方法从从头算计算中推导出 CFPs:AILFT(从头算配体场理论)方法,其中在轨道水平上确定参数,以及 ITO(不可约张量算子)分解,其中在多电子水平上处理问题。发现 CFPs 在给定系列内可以从一个衍生物转移到另一个衍生物,这是一个初步的近似。二阶参数的符号在两个系列中不同,反映了不同的环境。发现使用强度参数 S 可以方便地比较配合物。此外,在两个系列中,参数的大小都沿系列减小,这种减小归因于共价效应。