The Heterogeneous Reaction of N2O5 with HBr on Ice Comparison with N2O5+HCl

Article abstract of DOI:10.1002/bbpc.19981020604

The heterogeneous reactions of N₂O₅ with HC1 and HBr on ice have been studied in the temperature range 180 to 200 K using a Knudsen flow reactor. The uptake of N₂O₅ on ice in the presence of HBr was found to be strongly dependent on :he HBr concentration. For the highest HBr concentrations used a maximum uptake coefficient of N₂O₅ of 7 = 0.11 has been determined. We observed Br₂ and MONO in 80% yield as products with respect to N₂O₅ taken up. The uptake coefficient of N₂O₅ on ice in the presence of HC1 was found to be 3.2-10^-2 and increased with increasing HCl concentration. C1NO₂ was detected as the sole reaction product with a maximum yield of 63% with respect to N₂O₅ consumed. Hydrolysis of N₂O₅ resulting in HNO₃ was found to be competitive with the title reaction. For the case of the HBr reaction the branching ratio between Br₂ and HONO formation, on the one hand, and hydrolysis of N₂O₅, on the other hand, has been determined. Mechanistic aspects of the heterogeneous reaction of N₂O₅ with HX have been discussed. WILEY-VCH Verlag GmbH, 1998.