W4 theory for computational thermochemistry: In pursuit of confident sub-kJ/mol predictions

Karton, Amir; Rabinovich, É. M.; Martin, Jan M. L.; Ruščić, Branko

doi:10.1063/1.2348881

articleThe Journal of Chemical PhysicsOct 12, 2006BRONZE OA

W4 theory for computational thermochemistry: In pursuit of confident sub-kJ/mol predictions

AKAmir Karton ÉMÉ. M. Rabinovich JMJan M. L. Martin BRBranko Ruščić

Weizmann Institute of Science · Argonne National Laboratory

PubMed

Indexed inarxivcrossrefpubmed

Abstract

In an attempt to improve on our earlier W3 theory [A. D. Boese et al., J. Chem. Phys. 120, 4129 (2004)] we consider such refinements as more accurate estimates for the contribution of connected quadruple excitations (T4), inclusion of connected quintuple excitations (T5), diagonal Born-Oppenheimer corrections (DBOC), and improved basis set extrapolation procedures. Revised experimental data for validation purposes were obtained from the latest version of the Active Thermochemical Tables thermochemical network. The recent CCSDT(Q) method offers a cost-effective way of estimating T4, but is insufficient by itself if the molecule exhibits some nondynamical correlation. The latter considerably slows down basis set…

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Topics & keywords

Topics

Keywords

Extrapolation
Thermochemistry
Basis set
Basis (linear algebra)
Physics
Set (abstract data type)
Diagonal
Convergence (economics)

UN Sustainable Development Goals

Affordable and clean energy

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