高级评估xDH@B3LYP描述π-π、CH/π和SH/π非键相互作用驱动的各种势能曲线的方法

IF 1.2 4区化学 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL

Chinese Journal of Chemical Physics Pub Date : 2022-10-01 DOI:10.1063/1674-0068/cjcp2206098

Shiqian Tan, Yizhen Wang, Igor Ying Zhang, Xin Xu

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引用次数: 0

摘要

精确描述由非键合相互作用驱动的势能曲线对于纯密度泛函近似（DFA）来说仍然是一个巨大的挑战。这是因为（半）局部成分和流行的混合DFA中使用的精确交换不能从本质上捕捉色散的R−6衰变行为。过分强调功能结构的平衡区域的准确性可能会恶化势能面的其他区域的整体性能。因此，经验色散校正成为DFA中处理非键合相互作用的标准分量。在这封信中，我们证明了在不使用经验色散校正的情况下，双混合近似，特别是最近提出的两个revXYG3和XYG7泛函，有望对π-π、CH/π和SH/π相互作用的几个原型的整个势能曲线上的非键合相互作用进行平衡描述。revXYG3和XYG7对非键相互作用的误差约为0.1kcal/mol，它们的势能曲线几乎与精确的CCSD（T）/CBS曲线一致。

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Assessment of advanced xDH@B3LYP methods in describing various potential energy curves driven by π-π, CH/π, and SH/π non-bonded interactions

Accurate description of potential energy curves driven by non-bonded interactions remains a great challenge for pure density functional approximations (DFAs). It is because the R−6 decay behavior of dispersion cannot be intrinsically captured by the (semi)-local ingredients and the exact-exchange used in the popular hybrid DFAs. Overemphasizing the accuracy on the equilibrium region for the functional construction would likely deteriorate the overall performance on the other regions of potential energy surfaces. In consequence, the empirical dispersion correction becomes the standard component in DFAs to treat the non-bonded interactions. In this Letter, we demonstrate that without the use of empirical dispersion correction, doubly hybrid approximations, in particular two recently proposed revXYG3 and XYG7 functionals, hold the promise to have a balanced description of non-bonded interactions on the whole potential energy curves for several prototypes of π- π, CH/ π, and SH/ π interactions. The error of revXYG3 and XYG7 for non-bonded interactions is around 0.1 kcal/mol, and their potential energy curves almost coincide with the accurate CCSD(T)/CBS curves.

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来源期刊

Chinese Journal of Chemical Physics 物理-物理：原子、分子和化学物理

CiteScore

1.90

自引率

10.00%

发文量

2763

审稿时长

3 months

期刊介绍： Chinese Journal of Chemical Physics (CJCP) aims to bridge atomic and molecular level research in broad scope for disciplines in chemistry, physics, material science and life sciences, including the following: Theoretical Methods, Algorithms, Statistical and Quantum Chemistry Gas Phase Dynamics and Structure: Spectroscopy, Molecular Interactions, Scattering, Photochemistry Condensed Phase Dynamics, Structure, and Thermodynamics: Spectroscopy, Reactions, and Relaxation Processes Surfaces, Interfaces, Single Molecules, Materials and Nanosciences Polymers, Biopolymers, and Complex Systems Other related topics