Absolute rate constants for silylene reactions with diatomic molecules

Absolute rate constants hav-e been measured for the reaction of SiH, with N,O at temperatures between 295-747 K. The rate constantsarefittedto the Arrheniusequation: log( k/cm' molecule-' s-l) = ( -12.09+0.04) t (2.02?0.31) kJ mol-'JRTln IO. The data are plausibly consistent with a mechanism involv

Recelvcd 28 Apnl 1980. m final form 2 June 1980 CH (>(' fl) was produced by multiple mfrared photon dlssoclatlon of CH30H kapour m the presence of excess atomic oxygen Tune-resolved measurements of relative CH concentrations were made at 298 K \\xth a tunable dye laser. From the dependence of CH dec

## CH(X"iI ) h;cs been produced in the muItipIe-photon dissociation ofmethykunine by a TEA CO2 I~.ser-Laser-induced fluorescence has been used to measure relative CH concentrations zz a function of time and added gs pressures-ChemiIuminescence which accompanies the reaction is due to the productio

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