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Reaction mechanism of the CCN radical with nitric oxide

✍ Scribed by Lin Jin; Yi-Hong Ding; Jian Wang; Chia-Chung Sun

Publisher
John Wiley and Sons
Year
2006
Tongue
English
Weight
728 KB
Volume
27
Category
Article
ISSN
0192-8651

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✦ Synopsis

Abstract

To investigate the possibility of the carbyne radical CCN in removal of nitric oxide, a detailed computational study is performed at the Gaussian‐3//B3LYP/6‐31G(d) level on the CCN + NO reaction by constructing the singlet and triplet electronic state [C~2~N~2~O] potential energy surfaces (PESs). The barrierless formation of the chain‐like isomers NCCNO (singlet at βˆ’106.5, triplet cis at βˆ’48.2 and triplet trans at βˆ’47.6 kcal/mol) is the most favorable entrance attack on both singlet and triplet PESs. Subsequently, the singlet NCCNO takes an O‐transfer to form the branched intermediate singlet NCC(O)N (βˆ’85.6), which can lead to the fragments CN + NCO (βˆ’51.2) via the intermediate singlet NCOCN (βˆ’120.3). The simpler evolution of the triplet NCCNO is the direct N–O rupture to form the weakly bound complex triplet NCCN…O (βˆ’56.2) before the final fragmentation to NCCN + ^3^O (βˆ’53.5). However, the lower lying products ^3^NCN + CO (βˆ’105.6) and ^3^CNN + CO (βˆ’74.6) are kinetically much less competitive. All the involved transition states for generation of CN + NCO and NCCN + ^3^O lie much lower than the reactants. Thus, the novel reaction CCN + NO can proceed effectively even at low temperatures and is expected to play a role in both combustion and interstellar processes. Significant differences are found on the singlet PES between the CCN + NO and CH + NO reaction mechanisms. Β© 2006 Wiley Periodicals, Inc. J Comput Chem 27: 883–893, 2006

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