Kinetic Relationships between Reactions in the Gas Phase and in Solution

The rate law -d[O,]/dt = kl[A][OJ + k3[A][03]2/(k4 + kb[02]) has been found to obrain for the reaction of ozone with allene and with 1,2-butadiene. We now find that this rate law also applies to the reaction of ozone with ethylene and presumably with all lower alkenes. This generalizes the inhibiti

## Abstract The relative kinetic stabilities of different 16‐mer oligonucleotide duplexes were investigated by source collision‐induced dissociation (CID) in a heated capillary electrospray ion source. They were compared with the relative stabilities in solution obtained by thermal denaturation mon

The kinetics of the reaction between ozone and allene (A) were studied in the range of 226 to 325°K in the gas phase. Initial O3 pressures varied from 0.01 to 0.7 torr and allene pressures varied from 0.05 to 6 torr. At the higher initial 0 3 pressures the most important product was 0 2 followed by

The kinetics of the reactions CsH,+OH( t M) +products ( + M ) ( I ) were studied at room temperature by pulse radiolysis of C2H6/H20/SFb mixtures. The ethyl radical decay was followed by monitoring the UV absorption signals at 205 nm. The experimentally determined value of k, is (7.1 f 1.0) x lOto M