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• W2898348632 abstract "The Grimme-D3 semi-empirical dispersion energy correction has been implemented for the original effective fragment potential for water (EFP1), and for systems that contain water molecules described by both correlated ab initio quantum mechanical (QM) molecules and EFP1. Binding energies obtained with these EFP1-D and QM/EFP1-D methods were tested using 27 benchmark species, including neutral, protonated, deprotonated, and auto-ionized water clusters and nine solute-water binary complexes. The EFP1-D and QM/EFP1-D binding energies are compared with those obtained using fully QM methods: second-order perturbation theory, and coupled cluster theory, CCSD(T), at the complete basis set (CBS) limit. The results show that the EFP1-D and QM/EFP1-D binding energies are in good agreement with CCSD(T)/CBS binding energies with a mean absolute error of 5.9 kcal/mol for water clusters and 0.8 kcal/mol for solute-water binary complexes. © 2018 Wiley Periodicals, Inc." @default.
• W2898348632 created "2018-11-02" @default.
• W2898348632 creator A5010977651 @default.
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• W2898348632 date "2018-10-20" @default.
• W2898348632 modified "2023-09-30" @default.
• W2898348632 title "Application of a semi‐empirical dispersion correction for modeling water clusters" @default.
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• W2898348632 doi "https://doi.org/10.1002/jcc.25596" @default.
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