Theoretical Characterization of the Gas-Phase O3⋅⋅⋅HO Hydrogen-Bonded Complex

## Abstract We report a theoretical study on the reaction of ozone with hydroxyl radical, which is important in the chemistry of the atmosphere and in particular participates in stratospheric ozone destruction. The reaction is a complex process that involves, in the first stage, a pre‐reactive hydr

## Abstract We report a theoretical study on seven radical hydrogen bond complexes between syn‐HCOOH and OH and eight radical hydrogen bond complexes between anti‐HCOOH and OH, that have been carried out by using the B3 LYP, MP2, QCISD, and CCSD(T) theoretical approaches with the 6‐311+G(2df,2p) ba

## Abstract The radical‐radical reaction mechanisms and dynamics of ground‐state atomic oxygen [O(^3^P)] with the saturated __tert__‐butyl radical (__t__‐C~4~H~9~) are investigated using the density functional method and the complete basis set model. Two distinctive reaction pathways are predicted

## Abstract Various ONIOM combinations—ONIOM(HF/6‐31G\*: PM3), ONIOM(B3LYP/6‐31G\*: PM3), ONIOM(MP2/6‐31G\*: PM3), and ONIOM(MP2/6‐31G\*: HF/3‐21G)—were applied to investigate thermal decomposition mechanisms of four 2‐phenoxycarboxylic acids (2‐phenoxyacetic acid, 2‐phenoxypropionic acid, 2‐phenox