H. Du et al., RECOMBINATION OF METHYL RADICALS .1. NEW DATA BETWEEN 1175 AND 1750 KIN THE FALLOFF REGION, Journal of physical chemistry, 100(3), 1996, pp. 974-983
The rate coefficient for the recombination of methyl radicals, CH3 + C
H3 --> C2H6, was measured in incident shock-wave experiments on azomet
hane (0.12-1.3%) in argon, Methyl radicals were detected at 46 294 cm(
-1) (215.94 nm in air) by the tunable-laser flash-absorption technique
. Postshock pressures between 114 and 230 kPa (1.13-2.27 atm) produced
buffer gas concentrations between 5.4 x 10(18) and 1.1 x 10(19) cm(-3
). The cross section for optical absorption, the rate of dissociation
of azomethane, and the rate coefficient of the recombinational reactio
n were determined simultaneously by least-squares analysis of methyl a
bsorption profiles. The rate coefficient for the dissociation of azome
thane from 850 to 1430 K is k(dis)(T) = 2.22 x 10(39)T(-7.99) exp{-259
20/T(K)} s(-1). The temperature-dependent rate of recombination at 1.2
atm compares favorably with previous measurements, In terms of the ph
enomenological three-parameter equation of Kooji and the asymmetric Lo
rentzian broadening function of Gilbert et al., the recombination data
from 296 to 1800 K may be described by k(infinity)(T) = 1.53 x 10(-7)
T--1.203 exp{-295/T(K)} cm(3) s(-1), k(0)(T) = 1.70 x 10(-5) T--7.248
exp{-2172/T(K)} cm(6) s(-1), and F-cent(T) = exp{-T(K)/506}.