Path sampling for atmospheric reactions: formic acid catalysed conversion of SO3 + H2O to H2SO4

Path sampling for atmospheric reactions: formic acid catalysed conversion of SO3 + H2O to H2SO4

Atmospheric reactions, hitherto studied computationally mainly with static computations in conjunction with transition state theories, can be further described via path sampling calculations. Here we report on an exploratory study of the formic acid catalysed hydrolysis of SO3 to produce H2SO4. We d...

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Bibliographic Details
Main Authors: Christopher D. Daub, Enrico Riccardi, Vesa Hänninen, Lauri Halonen
Format: Article
Language:English
Published: PeerJ Inc. 2020-02-01
Series:PeerJ Physical Chemistry
Subjects:
Path sampling
Catalysis
Kinetics
Acid rain
Sulphuric acid
Atmospheric chemistry
Online Access:https://peerj.com/articles/pchem-7.pdf
Description
Summary:Atmospheric reactions, hitherto studied computationally mainly with static computations in conjunction with transition state theories, can be further described via path sampling calculations. Here we report on an exploratory study of the formic acid catalysed hydrolysis of SO3 to produce H2SO4. We demonstrate that precise measurements of rate coefficients can be obtained in principle for such reactions with an acceptable expenditure of computational resources, and that new insights into the reaction can be obtained by the analysis of the path space explored via path sampling techniques.
ISSN:2689-7733

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