A fast doubly hybrid density functional method close to chemical accuracy using a local opposite spin ansatz

Zhang, Igor Ying; Xu, Xin; Jung, Yousung; Goddard, William A. III

A fast doubly hybrid density functional method close to chemical accuracy using a local opposite spin ansatz

2011

Zhang, Igor Ying | Xu, Xin | Jung, Yousung | Goddard, William A. III

We develop and validate the XYGJ-OS functional, based on the adiabatic connection formalism and Görling-Levy perturbation theory to second order and using the opposite-spin (OS) ansatz combined with locality of electron correlation. XYGJ-OS with local implementation scales as N3 with an overall accuracy of 1.28Â kcal/mol for thermochemistry, bond dissociation energies, reaction barrier heights, and nonbonded interactions, comparable to that of 1.06Â kcal/mol for the accurate coupled-cluster based G3 method (scales as N7) and much better than many popular density functional theory methods: B3LYP (4.98), PBE0 (4.36), and PBE (12.10).

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AGROVOC关键词

accuracy chemical analysis

书目信息

发表于

Proceedings of the National Academy of Sciences of the United States of America

卷 108 期 50 页码 19896 - 19900 ISSN 0027-8424

出版者

National Academy of Sciences

其它主题

Dissociation; Chemical interactions

语言

英语

许可

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类型

Journal Article; Text

自何时收录于AGRIS: 2024-02-29

格式: MODS

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链接

DOI DOI http://dx.doi.org/10.1073/pnas.1115123108

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