与格
价键理论
分子轨道
化学
价(化学)
原子轨道
量子化学
化学物理
基准集
群(周期表)
分子
计算化学
密度泛函理论
物理
量子力学
电子
哲学
语言学
有机化学
作者
Brett A. Smith,Konstantinos D. Vogiatzis
标识
DOI:10.1021/acs.jpca.1c05956
摘要
The nature of donor–acceptor interactions is important for the understanding of dative bonding and can provide vital insights into many chemical processes. Here, we have performed a computational study to elucidate substantial differences between different types of dative interactions. For this purpose, a data set of 20 molecular complexes stabilized by dative bonds was developed (DAT20). A benchmark study that considers many popular density functionals with respect to accurate quantum chemical interaction energies and geometries revealed two different trends between the complexes of DAT20. This behavior was further explored by means of frontier molecular orbitals, extended-transition-state natural orbitals for chemical valence (ETS-NOCV), and natural energy decomposition analysis (NEDA). These methods revealed the extent of the forward and backdonation between the donor and acceptor molecules and how they influence the total interaction energies and molecular geometries. A new classification of dative bonds is suggested.
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