Valérie Fèvre-Nollet scite author profile

The reaction mechanisms of Br and I atoms with HO have been investigated using DFT and high-level ab initio calculations. The H-abstraction and OH-abstraction channels were highlighted. The geometries of the stationary points were optimized at the B3LYP/aug-cc-pVTZ level of theory, and the energetics were recalculated with the coupled cluster theory. Spin-orbit coupling for each halogenated species was also explicitly computed by employing the MRCI level of theory. Thermochemistry for HOBr and HOI has been revised and updated standard enthalpies of formation at 298 K for HOBr and HOI are the following: ΔH°(HOBr) = (-66.2 ± 4.6) kJ mol and ΔH°(HOI) = (-66.8 ± 4.7) kJ mol. The rate constants have been estimated using transition state theory (TST), canonical variational transition state theory (CVT), and CVT with small curvature tunneling (CVT/SCT) over a wide temperature range (250-2500 K). For the direct abstraction mechanism, the overall rate constant at 300 K was predicted to be 2.58 × 10 and 7.42 × 10 cm molecules for the Br + HO and I + HO reactions, respectively. The modified Arrhenius parameters have been estimated for the overall reactions: k(T) = 4.80 × 10 T exp(-5.51 (kJ mol)/RT) and k(T) = 3.41 × 10 T exp(-56.32 (kJ mol)/RT).

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Box modelling of gas-phase atmospheric iodine chemical reactivity in case of a nuclear accident

Fortin

Fèvre-Nollet

Cousin

et al. 2019

Atmospheric Environment

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Modeling of the chemical composition of fine particulate matter: Development and performance assessment of EASYWRF-Chem

Mendez

Lebègue

Visez

et al. 2016

Atmospheric Research

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