Ab initio molecular dynamics simulations of the gas-phase reaction of hydroxyl radical with nitrogen dioxide radical

## Abstract Rate coefficients for the reactions of hydroxyl (OH) radicals with the dimethylbenzaldehydes have been determined at 295 ± 2K and atmospheric pressure using the relative rate technique. Experiments were performed in an atmospheric simulation chamber using gas chromatography for chemical

The gas-phase reaction of bornyl acetate (bicyclo[2,2,1]-heptan-2-ol-1,7,7-trimethyl-acetate) with hydroxyl radical has been studied. A relative method was used to determine the rate constant for this reaction, with n-octane as reference compound. Methyl nitrite photolysis experiments were carried

The properties of supercritical fluid carbon dioxide were predicted satisfactorily by molecular dynamics simulations using a model potential from ab initio calculations. The model potential was obtained from the interaction energies of dimers calculated at the MP2/6-311 + G(2df)-level. The pressures

The gas phase reaction of the hydroxyl radical with the unsaturated peroxyacyl nitrate has been studied at 298 2 2 K and atmospheric pressure. The OH-MPAN reaction rate constant relative to that of OH + n-butyl nitrate is 2.08 2 0.25. This ratio, together with a literature rate constant of 1.74 X c