Departament de Química, Universitat Autònoma de Barcelona, 08193 Cerdanyola del Vallés, Spain.
Magn Reson Chem. 2010 Dec;48 Suppl 1:S76-85. doi: 10.1002/mrc.2632.
The NMR nuclear shielding tensors for the series LaX(3), with X = F, Cl, Br and I, have been computed using two-component relativistic density functional theory based on the zeroth-order regular approximation (ZORA). A detailed analysis of the inverse halogen dependence (IHD) of the La shielding was performed via decomposition of the shielding tensor elements into contributions from localized and delocalized molecular orbitals. Both spin-orbit and paramagnetic shielding terms are important, with the paramagnetic terms being dominant. Major contributions to the IHD can be attributed to the La-X bonding orbitals, as well as to trends associated with the La core and halogen lone pair orbitals, the latter being related to X-La π donation. An 'orbital rotation' model for the in-plane π acceptor f orbital of La helps to rationalize the significant magnitude of deshielding associated with the in-plane π donation. The IHD goes along with a large increase in the shielding tensor anisotropy as X becomes heavier, which can be associated with trends for the covalency of the La-X bonds, with a particularly effective transfer of spin-orbit coupling induced spin density from iodine to La in LaI(3).
该系列 LaX(3)的 NMR 核屏蔽张量(X = F、Cl、Br 和 I)是使用基于零阶正则逼近 (ZORA) 的双组分相对论密度泛函理论计算得到的。通过将屏蔽张量元素分解为局域和离域分子轨道的贡献,对 La 屏蔽的逆卤素依赖性 (IHD) 进行了详细分析。自旋轨道和顺磁屏蔽项都很重要,其中顺磁项占主导地位。IHD 的主要贡献归因于 La-X 成键轨道,以及与 La 核和卤素孤对轨道相关的趋势,后者与 X-La π 供体有关。La 的面内 π 受体 f 轨道的“轨道旋转”模型有助于合理化与面内 π 供体相关的屏蔽显著减小。随着 X 变得更重,屏蔽张量各向异性也会大幅增加,这与 La-X 键的共价性趋势有关,特别是在 LaI(3)中,自旋轨道耦合诱导的自旋密度从碘到 La 的转移非常有效。