Translational and internal energy dependences of some ion–neutral reactions

Abstract

The forward and reverse rate constants for the proton‐transfer reaction, N₂OH⁺+CO?COH⁺+N₂O, have been measured as a function of temperature in a variable‐temperature flowing afterglow and as a function of relative kinetic energy in a flow‐drift tube using both helium and argon buffer gases. The temperature variation of the rate constant was used to obtain ΔH⁰ =−4.4±0.4 kcal/mole and ΔS⁰=−4.0±1.0 entropy units. Furthermore, the comparison of the data taken as a function of temperature with those taken as a function of relative kinetic energy in different buffer gases shows that there are marked effects of ion vibrational energy on these rate constants. Similar data on the charge–transfer reaction, CO₂⁺+O₂→O₂⁺+CO₂, show the same effects. In addition, relative kinetic energy data on the proton transfer, ArH⁺+O₂→O₂H⁺+Ar, also imply strong effects of vibrational excitation on the rate constant.