Thiol esters I: Kinetic study of the formation of 2-dimethylaminoethanethiol propionate

The rate of the reaction CH212 + H I 2 CH,I + I , has been followed spectrophotometrically from 201 .O to 31 1 .Z0. The rate constant for the reaction I + CH,I, CH,I + I, fits the equation, log (k,/M-'sec-') = 11.45 f 0.18 -(15.11 f 0.44)/0. This value, combined with the assumption that E2 = 0 & 1 k

The kinetics of the title reactions have been studied using the discharge-flow mass spectrometic method at 296 K and 1 torr of helium. The rate constant obtained for the forward reaction (1), using three different experimental approaches (kinetics of Br Br ϩ IBr : I ϩ Br 2 consumption in excess of

The kinetics of formation of a chlorosilane-linked polystyrene six-arm star is reported. The precursor arm material ( M n Å 88,000) was made using anionic polymerization in benzene. Prior to addition to the 1,2-bis(trichlorosilyl) ethane linking agent, the anions were endcapped with about five units

## Abstract This article describes a dynamic model for formation and stability of CO~2~‐hydrate on the interface of liquid CO~2~(LCO~2~) and ocean water at large depths. Experimental results indicate that a thin film of hydrate naturally forms on the interfaces between LCO~2~ and water, and inhibit