Open AccessSIMOMM: An Integrated Molecular Orbital/Molecular Mechanics Optimization Scheme for Surfaces
Author(s) -
James R. Shoemaker,
Larry W. Burggraf,
Mark S. Gordon
Publication year - 1999
Publication title -
the journal of physical chemistry a
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.756
H-Index - 235
eISSN - 1520-5215
pISSN - 1089-5639
DOI - 10.1021/jp982600e
Subject(s) - molecular mechanics , scheme (mathematics) , interface (matter) , molecular dynamics , surface (topology) , statistical physics , ab initio , computer science , computational mechanics , quantum , materials science , computational science , molecule , physics , quantum mechanics , finite element method , mathematics , thermodynamics , geometry , mathematical analysis , gibbs isotherm
Reactions on surfaces are often modeled using molecular clusters which are too small to accurately represent the mechanical environment of bulk materials. The small size of these clusters is driven by the large cost of ab initio quantum mechanical (QM) computational methods needed to accurately model chemical reactions. Hybrid computational approaches that interface quantum mechanics with molecular mechanics (MM) methods, commonly referred to as QM/MM methods, are becoming increasingly popular for treating large systems, but these hybrid methods have not been applied to surface models. This paper presents a QM/MM optimization scheme for modeling surfaces that is based on the IMOMM approach of Maseras and Morokuma. The modified method, (S)urface IMOMM, and its applications to surface chemistry are discussed.
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