Determination of the absolute rate constant for the reaction O + NaO ? Na + O2 by time-resolved atomic chemiluminescence at ?= 589 nm [Na(3 2 PJ )? Na(3 2 S 1/2)+h ?]

We present a kinetic study of the reaction between atomic sodium and nitrous oxide in the temperature range 349-917K. Na(32S~/2) was generated by the pulsed irradiation of NaI vapor in the presence of N20 and excess helium buffer gas, and monitored photoelectrically in the "single-shot" mode by time

The absolute third-order rate constant for the recombination between Cs + O2 + Nz was studied by time-resolved atomic resonance absorption spectroscopy following pulsed irradiation of CsCl vapour at elevated temperatures. CS(~~S,,~), generated on photolysis, was monitored photoelectrically in absorp

Rate constants have been determined at (298 \* 4) K for the reactions: and the relaxation processes: (lb) HF(u = 1) + HCN -HF(v = 0) + HCN Time-resolved HF(1,O) emission was observed following the photolysis of Fz with pulses from an excimer laser operating on XeCl ( h = 308 nm). Analysis of the

We present a kinetic study of the reactions of ground-state sodium atoms with the molecules CH3F, CH3Cl, CH3Br, HC1, and HBr a t elevated temperatures (537-966 K). Na(32S,,2) was generated by the pulsed irradiation of various sodium halide vapors and monitored by time-resolved atomic resonance absor

Ra?e constants for the reaction of 0(3P) atoms with CaH4, CaHB and NO(M = NpO) have been measured over the temperature range 300-392°K using a modulation-phase shifi technique. The Arrhenius expressions obtained are: C2H4, k2 = 3.37 X 10' exp[-(1270 -f 200)/RT] liter mole-' see-', CJH~, kz = 2.08 x