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Inclusion of the ligand field contribution in a polarizable molecular mechanics: SIBFA-LF

โœ Scribed by Jean-Philip Piquemal; Ben Williams-Hubbard; Natalie Fey; Robert J. Deeth; Nohad Gresh; Claude Giessner-Prettre

Publisher
John Wiley and Sons
Year
2003
Tongue
English
Weight
143 KB
Volume
24
Category
Article
ISSN
0192-8651

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โœฆ Synopsis

Abstract

To account for the distortion of the coordination sphere that takes place in complexes containing openโ€shell metal cations such as Cu(II), we implemented, in sum of interactions between fragments ab initio computed (SIBFA) molecular mechanics, an additional contribution to take into account the ligand field splitting of the metal d orbitals. This term, based on the angular overlap model, has been parameterized for Cu(II) coordinated to oxygen and nitrogen ligands. The comparison of the results obtained from density functional theory computations on the one hand and SIBFA or SIBFAโ€LF on the other shows that SIBFAโ€LF gives geometric arrangements similar to those obtained from quantum mechanical computations. Moreover, the geometric improvement takes place without downgrading the energetic agreement obtained from SIBFA. The systems considered are Cu(II) interacting with six water molecules, four ammonia or four imidazoles, and four water plus two formate anions. ยฉ 2003 Wiley Periodicals, Inc. J Comput Chem 24: 1963โ€“1970, 2003

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