Determination of the rate constant of reaction of ground-state CI and H atoms with H2S using resonance fluorescence in a discharge flow

Absolute rate constants for the reaction of S(3P) with ethylene were measured over an ethylene concentration range of 7, a total pressure of 50 to 400 tom, and a flash intensity range of 10. At 298"K, the bimolecular rate constant was found to be invariant over this range of variables a& had a measu

The absolute rate constant of the title reaction has been measured using the technique of discharge flow resonance fiuorcscencc over the temperature range X3-373 K. An Arrhcnius plot of the data below room temperature can be fittedbp a nc\_Wive activation energy E/R = -S43 K. The room-temperature va

## Abstract Rate parameters for the reaction of ground‐state atomic sulfur, S(^3^__P__), with the olefins __cis__‐2‐butene and tetramethylethylene have been determined over a temperature range of ∽280°K. A major finding of this study was that the rate constants for both reactions showed negative te

## Abstract Absolute rate constants for the reaction of S(^3^__P__) with ethylene episulfide were measured over a C~2~H~4~S concentration range of 5, a total pressure of 20–200 tort, and a flash intensity range of ˜4. Over this range of variables, the bimolecular rate constant was found to be invar

## Abstract Using the technique of flash photolysis‐resonance fluorescence, absolute rate constants have been measured for the reaction of S(^3^__P__) with propene and 1‐butene. Variations in experimental conditions included the following: temperature (215–500°__K__); total pressure a factor of 10;

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