Absolute rate constant for the reaction of OH with thiophene between 293 and 473 K

The absolute rate constants for the gas-phase H-atom abstraction by hydroxyl radicals from cyclohexane and ethane have been determined at room temperature. OH radicals were produced by pulse radiolysis of an H,O-Ar mixture, and the decay of OH was followed by monitoring the transient light absorpti

## Abstract The absolute rate constants for the reactions of NH~2~ radicals with ethyl, isopropyl, and __t__‐butyl radicals have been measured at 298 K, using a flash photolysis–laser resonance absorption method. Radicals were generated by flashing ammonia in the presence of an olefin. A new measur

By using a relative rate technique, the rate constant for the gas phase reaction of OH radicals with diacetylene, a reaction considered to be of importance in fuel-rich acetylene oxidation, has been determined at 297 :t: 2K and atmospheric pressure. On the basis of a rate constant for the reaction o

## Abstract Rate coefficients are reported for the gas phase reaction of OH with OClO over the temperature range 242–392 K at 25, 50, and 100 Torr (He). Kinetic measurements were made using pulsed laser photolysis with laser induced fluorescence detection of the OH radical. The measured rate coeffi

Rate coefficients, k l , for the reaction OH + HONO 4 H20 + NOz, have been measured over the temperature range 298 to 373 K. The OH radicals were produced by 266 nm laser photolysis of 0 3 in the presence of a large excess of HtO vapor. The temporal profiles of OH were measured under pseudo-first-or

The absolute rate constant for the reaction of phenyl radical with acetylene has been measured at 20 torr total pressure in the temperature range of 297 to 523 K using the cavity-ring-down technique. These new kinetic data could be quantitatively correlated with the data obtained earlier with a rela