To explore the binding properties of benzene towards small molecules bearing C H groups with different acidities, we have undertaken ab initio quantum-chemical calculations, including correlation effects through Density Functional Theory methods, on the benzene CH3X (X = F, Cl, Br, I, CN, NO2) adducts. Benzene acts as a Lewis base and the CH3X molecule as a Lewis acid. The partial charge transferred from benzene to the Lewis acid is mainly confined on the X group and increases with the electron withdrawing character of X. The calculations performed on the various systems predict that two different stable structures for each adduct exist: one with C-3v and the other with C-s symmetry, the latter being the most stable one. A simple HOMO-LUMO model suggests that the charge is transferred from the benzene HOMO to the CH3X LUMO and that this process is easier in the systems with C-s symmetry due to the better overlap between the frontier orbitals.
CH/pi interaction between benzene and model neutral organic molecules bearing acid CH groups / Ugozzoli, Franco; Arduini, Arturo; Massera, Chiara; Pochini, Andrea; Secchi, Andrea. - In: NEW JOURNAL OF CHEMISTRY. - ISSN 1144-0546. - 26:(2002), pp. 1718-1723. [10.1039/B208432E]
CH/pi interaction between benzene and model neutral organic molecules bearing acid CH groups
UGOZZOLI, Franco;ARDUINI, Arturo;MASSERA, Chiara;POCHINI, Andrea;SECCHI, Andrea
2002-01-01
Abstract
To explore the binding properties of benzene towards small molecules bearing C H groups with different acidities, we have undertaken ab initio quantum-chemical calculations, including correlation effects through Density Functional Theory methods, on the benzene CH3X (X = F, Cl, Br, I, CN, NO2) adducts. Benzene acts as a Lewis base and the CH3X molecule as a Lewis acid. The partial charge transferred from benzene to the Lewis acid is mainly confined on the X group and increases with the electron withdrawing character of X. The calculations performed on the various systems predict that two different stable structures for each adduct exist: one with C-3v and the other with C-s symmetry, the latter being the most stable one. A simple HOMO-LUMO model suggests that the charge is transferred from the benzene HOMO to the CH3X LUMO and that this process is easier in the systems with C-s symmetry due to the better overlap between the frontier orbitals.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
