Chemical Bonding in Hypervalent Molecules Revised. Application of the Atoms in Molecules Theory to Y3 X and Y3 XZ (Y = H or CH3; X = N, P or As; Z = O or S) Compounds

Chemical Bonding in Hypervalent Molecules Revised. Application of the Atoms in Molecules Theory to Y3 X and Y3 XZ (Y = H or CH3; X = N, P or As; Z = O or S) Compounds

Atoms in Molecules Theory has been applied to analyze bonding properties, in potentially hypervalent pnicogen (N, P or As)−chalcogen(O or S) bonds within the framework of three plausible models:  (i) one σ bond and two π back-bonds (negative hyperconjugation), (ii) one σ bond and three π back-bonds,...

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Bibliographic Details
Published in:Journal of the American Chemical Society Vol. 120; no. 33; pp. 8461 - 8471
Main Authors: Dobado, J. A, Martínez-García, Henar, Molina, Sundberg, Markku R
Format: Journal Article
Language:English
Published: American Chemical Society 26-08-1998
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Summary:Atoms in Molecules Theory has been applied to analyze bonding properties, in potentially hypervalent pnicogen (N, P or As)−chalcogen(O or S) bonds within the framework of three plausible models:  (i) one σ bond and two π back-bonds (negative hyperconjugation), (ii) one σ bond and three π back-bonds, and (iii) three Ω (banana) bonds. The topological analyses (based upon the electron charge density (ρ(r)), its Laplacian (∇2ρ(r)), bond ellipticity, etc.) and the charges were consistent with a highly polarized σ bond, with bond strength dependent on the electrostatic interactions. The equilibrium geometries were optimized by both density functional theory with a hybrid functional (B3LYP) and by ab initio methods at the MP2(full) level, using the 6-311G basis set augmented by polarization and/or diffuse functions.
Bibliography:ark:/67375/TPS-XQLGC7T8-R
istex:5CB23B224BBEAF10954D2C3766A404A254994031
ISSN:0002-7863
1520-5126
DOI:10.1021/ja980141p