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Comparison of G3 and G4 Theories for Radical Addition and Abstraction Reactions

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Lin, Ching-Yeh
Hodgson, Jennifer
Namazian, Mansoor
Coote, Michelle

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American Chemical Society

Abstract

A test set of 21 radical addition and 28 hydrogen abstraction reactions has been studied at the Wl, G4, G3X, G3X(MP2), and G3X(MP2)-RAD levels of theory with a view to establishing whether the recently introduced G4 theory offers improved performance over the G3 methods. All methods tested approximated the benchmark Wl values to within a mean absolute deviation (MAD) of 4 kJ mol -1 or less, although maximum absolute deviations for problematic reactions (such as radical addition to thiocarbonyl compounds) can be as much as 10 kJ mol-1 for the G3 methods. The new noncanceling higher-level correction (HLC) term in G4 was found to be capable of mitigating these errors in radical addition, but it introduced a systematic error to the reaction energies of the abstraction reactions, and its format may therefore require re-examination. G3 methods were shown to offer "chemical accuracy" even for these problematic cases, provided they were corrected to the Wl level of theory via an ONIOM-based approach.

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Journal of Physical Chemistry A

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Restricted until

2037-12-31