Abstract: The fundamentally new method NESE is proposed for quantum chemical calculations of large molecules, which employs the approximation of the Hamiltonian of the commonly used DFT method and is as fast as the AM1 and PM3 semi-empirical methods or the DFTB method. The parameters for the new method were chosen by the least-squares method based on the comparison of its matrix elements with the reference DFT/PBE Hamiltonian. The initial non-iterative version NESE-0 was computer-implemented and approved on many thousands of various molecules containing H, C, N, and O atoms. The NESE-0 method moderately outperforms the DFTB approach and is an order of magnitude better than the AM1, PM3, and PM6 levels in reproducing the one-electron energies calculated in terms of the DFT/PBE.

Cite: Anikin N.A. , Bugaenko V.L. , Kuz’minskii M.B. , Mendkovich A.S.
Fast method for quantum chemical calculations of large molecules with the approximation of the DFT Hamiltonian
Russian Chemical Bulletin. 2014. V.63. N2. P.346-349. DOI: 10.1007/s11172-014-0435-8 WOS Scopus OpenAlex

Identifiers:

Web of science:	WOS:000343607900003
Scopus:	2-s2.0-84910145550
OpenAlex:	W2059123737

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