卤素和硫族元素结合受密度驱动误差主导。

Halogen and Chalcogen Binding Dominated by Density-Driven Errors.

作者信息

Kim Yeil, Song Suhwan, Sim Eunji, Burke Kieron

机构信息

Department of Chemistry , Yonsei University , 50 Yonsei-ro , Seodaemun-gu, Seoul 03722 , Korea.

Department of Chemistry , and Department of Physics , University of California , Irvine , California 92697 , United States.

出版信息

J Phys Chem Lett. 2019 Jan 17;10(2):295-301. doi: 10.1021/acs.jpclett.8b03745. Epub 2019 Jan 8.

DOI:10.1021/acs.jpclett.8b03745

PMID:30562033

Abstract

Dispersion corrections of various kinds usually improve DFT energetics of weak noncovalent interactions. However, in some cases involving molecules or halides, especially those with σ-hole interactions, the density-driven errors of uncorrected DFT are larger than the dispersion corrections. In these abnormal situations, HF-DFT (using Hartree-Fock densities instead of self-consistent densities) greatly improves bond energies, while dispersion corrections can even worsen the results. On the other hand, pnictogen bonds and the S22 data set are normal and are not improved by this procedure. Such effects should be accounted for when parametrizing dispersion interactions.

摘要

各种色散校正通常会改善弱非共价相互作用的密度泛函理论（DFT）能量。然而，在某些涉及分子或卤化物的情况下，特别是那些具有σ-空穴相互作用的情况，未校正DFT的密度驱动误差大于色散校正。在这些异常情况下，HF-DFT（使用哈特里-福克密度而不是自洽密度）能极大地改善键能，而色散校正甚至会使结果变差。另一方面，氮族元素键和S22数据集是正常的，此方法并不能改善它们。在为色散相互作用设定参数时应考虑到这些影响。

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卤素和硫族元素结合受密度驱动误差主导。

Halogen and Chalcogen Binding Dominated by Density-Driven Errors.

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