Theoretical study on the reaction mechanism of CN radical with ketene
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摘要:
The bimolecular single collision reaction potential energy surface of CN radical with ketene (CH2CO) was investigated by means of B3LYP and QCISD(T) methods.The calculated results indicate that there are three possible channels in the reaction.The first is an attack reaction by the carbon atom of CN at the carbon atom of the methylene of CH2CO to form the intermediate NCCH2CO followed by a rupture reaction of the C-C bond combined with -CO group to the products CH2CN+CO.The second is a direct addition reaction between CN and CH2CO to form the intermediate CH2C(O)CN followed by its isomerization into NCCH2CO via a CN-shift reaction, and subsequently, NCCH2CO dissociates into CH2CN+CO through a CO-loss reaction.The last is a direct hydrogen abstraction reaction of CH2CO by CN radical.Because of the existence of a 15.44 kJ/mol reaction barrier and higher energy of reaction products, the path can be ruled out as an important channel in the reaction kinetics.The present theo-retical computation results, which give an available suggestion on the reaction mechanism, are in good agreement with previous experimental studies.