A spectroscopic determination of the methyl radical recombination rate constant in shock waves

## Abstract The decaying absorption of CH~3~ radicals at 216.4 nm has been followed over more than three half‐lives using a photoelectric split‐beam kinetic spectrometer. The rate constant for recombination __k__~r~ was found to be (5.60 ± 0.76) × 10^−11^ cm^3^/molecule·s.

The pyrolysis of 2% CHI and 5% CHI diluted with Ar was studied using both a single-pulse and time-resolved spectroscopic methods over the temperature range 1400-2200 K and pressure range 2.3-3.7 atm. The rate constant expressions for dissociative recombination reactions of methyl radicals, CH, + CH3

I%c rate conswnt for methyl rzdic;ll recombination has been measured over the rempcrature range 296-577 K and at pressures bcl\vcrn 5 and 500 Torr win: laser 5~11 photolysis. coupled with absorption spectroscopy at 216.36 nm. Analysis 01' lhC f~ll-ol'f curves gives k, = (1.78 2 0.18) x IO-" rsp( 151

## Abstract Using the Mayo and the Clay‐Gilbert method, the transfer rate coefficient of α‐thioglycerol (TG) was determined at 50°C for the polymerization of methyl methacrylate (MMA) in a 3 mol · L^−1^ tetrahydrofuran solution using different amounts of 2,2′‐azoisobutyronitrile (AIBN) as initiator

Using a relative rate method, rate constants for the gas-phase reactions of 2methyl-3-buten-2-ol (MBO) with OH radicals, ozone, NO 3 radicals, and Cl atoms have been investigated using FTIR. The measured values for MBO at and total 298 Ϯ 2 K 740 Ϯ 5 torr pressure are: Ϫ11 3 Ϫ1 Ϫ1 Ϫ18 3 k ϭ (3.9 Ϯ 1.

The f-value of the Z16Oi band of the free methyl radical W~ZI determined Pxperimentally as (1.2 t 0.2) x 10'2. The rate coefficient for combination was found to be (2.43 h 0.24) x 1013cm3 mal-lsec-1. Rydberg series of the free methyl radical in the far ultraviolet were discovered by \_Herzberg and