A Mechanistic Study of the Effects of Antioxidants on the Formation of Malondialdehyde-Like Products in the Reaction of Hydroxyl Radicals with Deoxyribose

The reaction of CH3 with OH has been studied near 1200 K and 1 atmosphere pressure in shock tube experiments in which UV absorption was used to monitor [OH]. A rate coefficient of (1.1 ? 0.3) x 1013 cm3/mol-s was measured for removal of OH by CH3. This measured value is compared with previous experi

The rate coefficient for the reaction of the hydroxyl radical, OH, with propane has been measured at 1220 K in shock tube experiments, and a value of (1.58 ? 0.24) x l O I 3 cm3/mol s was obtained. This measured value is compared with previous experimental results and a transition-state theory calcu

## Abstract The mechanism for the reaction of the cyanogen radical (CN) with the cyanomidyl radical (HNCN) has been investigated theoretically. The electronic structure information of the singlet and triplet potential energy surfaces (PESs) is obtained at the B3LYP/6‐311+G(3df,2p) level, and the si

The semi-empirical quantum mechanical molecular orbital method PM3 has been used to investigate the nature of the transition states for the reactions of hydroxyl radicals with halogenated aldehydes. For each reaction, the geometric and electronic structures of the transition state corresponding to t

## Abstract The gas‐phase reaction of methacrolein with the OH radical, in the presence of NO~__x__~, was investigated at 298 ± 2 K and atmospheric pressure of air. Hydroxyacetone, methylglyoxal, a peroxyacyl nitrate identified as CH~2~  C(CH~3~)C(O)OONO~2~ (peroxymethacryloyl nitrate), formaldehy