The temperature dependence of the rate constants K1, K2 and K3 in the Langmuir-Hinshelwood rate relation for carbon-carbon dioxide reaction

Rate constants for the tunneling reaction, HD + D ~ H + D 2, in solid HD have been determined by using ESR in the very low temperature range of 2.6-6.5 K. The rate constants increase steeply with increasing temperature above 5 K, while they are almost independent of temperature below 5 K. The result

Rate constants for the reaction of OH radicals vlith COS. CSz and CII~SCHJ, which are invo!ved in the glohal sulfur cycle, iI;IVC been determined over the temperature range 299-430 K uGng a flash ps hotolysis-resonance fluorcsccnu: tcchmque. For COS and CS2 upper limits at room tcmyzraturc of k(COS)

Rate constants have been measured for \*he vibrational deactivation of the 15 pm band of CO2 in the temperature range 300 te 150 K by the calktson partners CH3F. CO2, N2, Ar and Kr. The CO2 was ~~mtion~y excited by (VV) transfer from C&r whtch had been pumped with a CO2 laser and Its deactivatton mo

Rate constants for the gas-phase reactions of O3 with a series of monoterpenes and related compounds have been determined at 296 2 2 K and 740 torr total pressure of air or 0 2 using a combination of absolute and relative rate techniques. Good agreement between the absolute and relative rate data wa

We present a direct kinetic study of the third-order recombination reaction K + 02 + Nz--\*KO2 + N2 (k4) across the temperature range 680-1010K. K(42S~t2) was generated by pulsed irradiation and monitored by timeresolved atomic resonance absorption spectroscopy in the "single shot mode" in the prese