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Water Vapor Does Not Catalyze the Reaction between Methanol and OH Radicals
Author(s) -
Chao Wen,
JrMin Lin Jim,
Takahashi Kaito,
Tomas Alexandre,
Yu Lu,
Kajii Yoshizumi,
Batut Sébastien,
Schoemaecker Coralie,
Fittschen Christa
Publication year - 2019
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201900711
Subject(s) - radical , chemistry , methanol , catalysis , water vapor , relative humidity , reaction rate , atmosphere (unit) , photochemistry , reaction mechanism , thermodynamics , organic chemistry , physics
Recent reports [Jara‐Toro et al., Angew. Chem. Int. Ed . 2017 , 56 , 2166 and PCCP 2018 , 20 , 27885] suggest that the rate coefficient of OH reactions with alcohols would increase by up to two times in going from dry to high humidity. This finding would have an impact on the budget of alcohols in the atmosphere and it may explain differences in measured and modeled methanol concentrations. The results were based on a relative technique carried out in a small Teflon bag, which might suffer from wall reactions. The effect was reinvestigated using a direct fluorescence probe of OH radicals, and no catalytic effect of H 2 O could be found. Experiments in a Teflon bag were also carried out, but the results of Jara‐Toro et al. were not reproducible. Further theoretical calculations show that the water‐mediated reactions have negligible rates compared to the bare reaction and that even though water molecules can lower the barriers of reactions, they cannot make up for the entropy cost.