Theoretical insight on atmospheric chemistry of HFE-365mcf3: reactions with OH radicals, atmospheric lifetime, and fate of alkoxy radicals (CF3CF2CH(O-/sup>)OCH
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- 作者:Debajyoti Bhattacharjee ; Bhupesh Kumar Mishra…
- 关键词:Alkoxy radical ; Bond dissociation energy ; Hydrofluoroether ; Isodesmic reactions ; Rate constant
- 刊名:Journal of Molecular Modeling
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:21
- 期:4
- 全文大小:895 KB
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- 刊物主题:Chemistry
Computer Applications in Chemistry
Biomedicine
Molecular Medicine
Health Informatics and Administration
Life Sciences
Computer Application in Life Sciences - 出版者:Springer Berlin / Heidelberg
- ISSN:0948-5023
文摘
In the present work, theoretical study on the mechanism and kinetics of the gas-phase reactions of CF3CF2CH2OCH3 (HFE-365mcf3) with the OH radicals have been performed using meta-hybrid modern density functional M06-2X in conjunction with 6-31+G(d,p) basis set. Reaction profiles for OH-initiated hydrogen abstraction are modeled including the formation of pre-reactive and post-reactive complexes at entrance and exit channels. Our calculations reveal that hydrogen abstraction from the –CH2 group is thermodynamically more facile than that from the –CH3 group. This is further ascertained by the calculated C-H bond dissociation energy of CF3CF2CH2OCH3 molecule. The rate constants of the titled reactions are computed over the temperature range of 250-50?K. The calculated rate constant value at 298?K is found to be in reasonable agreement with the experimental results. The atmospheric life time of HFE-365mcf3 is estimated to be 42?days. The atmospheric fate of the alkoxy radicals, CF3CF2CH(O-/sup>)OCH3 and CF3CF2CH2OCH2O-/sup> are also investigated for the first time using the same level of theory. Out of three plausible decomposition channels, our results clearly point out that reaction with O2 is the dominant atmospheric sink for the decomposition of CF3CF2CH(O-/sup>)OCH3 radical in the atmosphere.