Vibrational emission of NO2 from the reaction of NO with O3

Ihe reactions of CC1302 with NO and NO2 have been studied by steady-state photolqsis of Clz-HCCl,-Oz-&-NO --NOz mixtures at =I atm: CCl30, + NO -Ccl,0 + NO, (3), CCt,O, + NO2 (t hl) \* CCl,02NOt (+ hi) (4. A); k&k3 = 0.68, independent of temperature-The thermal decomposition of CC1302N02 via the bac

## Abstract The kinetics of the gas‐phase reaction of the NO~3~ radical with naphthalene have been investigated at 150 torr O~2~ + 590 torr N~2~ and 600 torr O~2~ + 140 torr N~2~ at 298 ± 2 K. Relative rate measurements were carried out in reacting NO~3~N~2~O~5~‐naphthalene‐propene‐O~2~N~2~ mixtu

The reactions of GeH 3 with 02, NO, and NO 2 were studied via time-resolved infrared diode laser absorption spectroscopy over the temperature range 232-468 K for 02 and NO, and 252-407 for NO 2. The measured rate constants (in cm 3 molecule -1 s -1) were kGert3+o2 = (10 -13"18+°"18) exp[(874 + 146)/

The rate constant for the reaction CH302 + NO2 -(products) has been measured directly by flash photolysis and kinetic spectroscopy. At room temperature and a t total pressures between 53 and 580 Torr, k:, = (9.2 f 0.4) X lo8 liter/mole sec so that the rate of formation of the probable primary produc

&te coefficients for the reaction of Cl-I,0 ~th NO 2 were measured over the temperature range 21-O-473 K and over tie pressure range 0 6-4 0 Torr using a flow reactor apparatus uqth laser-Induced fluorescence (LIF) detection of CH,O The results were fitted LO extract recombmatlon and &sproporuonauon