Quantum chemical calculations were carried out at several theoretical levels (semi-empirical, MNDO; ab initio, 3-21G SCF, 6-311G** SCF and DZP CISD) to investigate the ring-opening process of and the loss of CO from the molecular ion of 5(4H)-oxazolone. The ring-opening process is predicted to be slightly endothermic and the loss of CO from the open-ring molecular ion to be slightly exothermic. Detailed population analysis calculations suggest the weakening of the lactonic C[BOND]O bond in the closed-ring molecular ion and weak carbon--carbon and nitrogen--(formy)--carbon bonds in the open form. Both the open-ring molecular ion and the [M-CO]+· ion are suggested to be of distonic type.
Ring opening of the molecular ion of 5(4H)-oxazolone
1992
Abstract
Quantum chemical calculations were carried out at several theoretical levels (semi-empirical, MNDO; ab initio, 3-21G SCF, 6-311G** SCF and DZP CISD) to investigate the ring-opening process of and the loss of CO from the molecular ion of 5(4H)-oxazolone. The ring-opening process is predicted to be slightly endothermic and the loss of CO from the open-ring molecular ion to be slightly exothermic. Detailed population analysis calculations suggest the weakening of the lactonic C[BOND]O bond in the closed-ring molecular ion and weak carbon--carbon and nitrogen--(formy)--carbon bonds in the open form. Both the open-ring molecular ion and the [M-CO]+· ion are suggested to be of distonic type.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
