迈向大分子热力学的化学精度：包含非局部相关效应的新型杂化密度泛函

Towards chemical accuracy for the thermodynamics of large molecules: new hybrid density functionals including non-local correlation effects.

作者信息

Schwabe Tobias, Grimme Stefan

机构信息

Theoretische Organische Chemie, Organisch-Chemisches Institut der Universität Münster, Corrensstrasse 40, D-48149, Münster, Germany.

出版信息

Phys Chem Chem Phys. 2006 Oct 14;8(38):4398-401. doi: 10.1039/b608478h. Epub 2006 Sep 1.

DOI:10.1039/b608478h

PMID:17001405

Abstract

Two hybrid density functionals that include a second-order perturbation correction for non-local correlation effects are tested for the full G3/05 test set. Very large AO basis sets including core-polarization/correlation functions have been employed that yield for the first time results quite close to the basis set limit for this set. The B2-PLYP functional and the new mPW2-PLYP approach with a modified exchange part give by far the lowest MAD over the whole G3/05 set ever reported for a DFT method (2.5 and 2.1 kcal mol(-1), respectively). The big improvement compared to common density functionals is further demonstrated by the reduction of the maximum and minimum errors (outliers) and by much smaller errors for complicated molecular systems.

摘要

针对完整的G3/05测试集，对两种包含非局部相关效应二阶微扰校正的杂化密度泛函进行了测试。使用了非常大的原子轨道基组，包括核心极化/相关函数，首次得到了与该测试集基组极限非常接近的结果。B2-PLYP泛函和具有改进交换部分的新mPW2-PLYP方法在整个G3/05测试集中给出了迄今为止DFT方法所报告的最低平均绝对偏差（分别为2.5和2.1 kcal mol⁻¹）。与普通密度泛函相比的巨大改进通过最大和最小误差（异常值）的减少以及复杂分子系统的误差小得多进一步得到证明。

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迈向大分子热力学的化学精度：包含非局部相关效应的新型杂化密度泛函

Towards chemical accuracy for the thermodynamics of large molecules: new hybrid density functionals including non-local correlation effects.

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