The thermal, photochemical and reductive dehalogenations of methyl chloride (H3C-Cl) are studied with the ab initio MCSCFmethod using three different basis sets (3-2 lG*, 6-31G* and 6-31 +G*). It has been found that both thermal and photochemicaldecomposition produce a methyl and a chlorine radical. The photochemical decomposition involves excitation of the H3C-Clmolecule from the singlet ground state to a singlet or triplet n-u* state which dissociates directly to these products. The reductivedehalogenation involves the formation of a metastable anion (resulting from electron transfer to the chloromethane) which dissociatesimmediately to a methyl radical and chloride anion. While for the thermal and photochemical decomposition the resultsobtained at the various computational levels do not significantly differ, for a reliable description of the reductive dehalogenation,it is essential to use a basis set, such as 6-31 +G*, which includes appropriate sp-type diffuse functions
AN MCSCF AB INITIO STUDY OF C-CL BOND CLEAVAGE IN H3C-Cl / Benassi, Rois; F., Bernard1; A., Bottoni; M. A., Robb; Taddei, Ferdinando. - In: CHEMICAL PHYSICS LETTERS. - ISSN 0009-2614. - STAMPA. - 161:(1989), pp. 79-84.
AN MCSCF AB INITIO STUDY OF C-CL BOND CLEAVAGE IN H3C-Cl
BENASSI, Rois;TADDEI, Ferdinando
1989
Abstract
The thermal, photochemical and reductive dehalogenations of methyl chloride (H3C-Cl) are studied with the ab initio MCSCFmethod using three different basis sets (3-2 lG*, 6-31G* and 6-31 +G*). It has been found that both thermal and photochemicaldecomposition produce a methyl and a chlorine radical. The photochemical decomposition involves excitation of the H3C-Clmolecule from the singlet ground state to a singlet or triplet n-u* state which dissociates directly to these products. The reductivedehalogenation involves the formation of a metastable anion (resulting from electron transfer to the chloromethane) which dissociatesimmediately to a methyl radical and chloride anion. While for the thermal and photochemical decomposition the resultsobtained at the various computational levels do not significantly differ, for a reliable description of the reductive dehalogenation,it is essential to use a basis set, such as 6-31 +G*, which includes appropriate sp-type diffuse functions
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