Kinetics of the reaction between methyl radical and acetylene

For the 'title reaction, the pressure dependent rate coefficients were studied at 298 K using two complementary experimental techniques. Pulse radiolysis combined with UV absorption was employed at pressures between 500 and 1000 mbar, while a fast-flow system with a quadrupole mass spectrometer (at

The kinetics of the reaction CH,+OH (+M)dCH,OH (+M) was studied at room temperature by pulse radiolysis of SF,/ CHJH# mixtures. The methyl radical decay was followed by monitoring the UV absorption signals at 216.4 nm. A pressure dependence of k, was observed with values ranging from (5.8 kO.3) x 10

The reactions have been studied by a mass-balance method involving the photolysis of small amounts of biacetyl in the presence of a large excess of isobutane containing a small proportion of the unsaturated substrate. The following Arrhenius parameters have been derived: Temperature Reaction E log A

## Abstract The reaction between H and C~3~H~5~ has been studied at 291 K. Exciplex laser flash photolysis at 193.3 nm of hexa‐1,5‐diene‐He mixtures generated both H and C~3~H~5~ ([H] ≪ [C~3~H~5~]), which were detected in time‐resolved mode by resonance fluorescence and absorption spectroscopy, res

The reaction of OH with acetylene was studied in a discharge flow system at room temperature. OH was generated by the reaction of atomic hydrogen with NO2 and was monitored throughout the reaction using ESR spectroscopy. Mass-spectrometric analysis of the reaction products yielded the following resu