Electron reactivity in liquid hydrocarbon mixtures

Abstract

The electron current in neopentane–n-hexane mixtures, produced by a few nanoseconds X-ray pulse in the presence of external electric field, has been observed in the nanosecond–microsecond range. The form of the time dependence of the electron current has been shown to vary with dose per pulse and is analysed accordingly. The electron mobilities μ_e are thereby determined in the mixtures. The rate constant of electron–ion recombination, k_r, is proportional to the mobility over the wide range of μ_e The rate constant for electron scavenging, k_s by CC1₄ varies with √μ_e; k_s for C₂H₅Br shows a maximum for a mixture with the mole fraction of n-hexane, x_h = 0.48. The results for k_s obtained for the mixtures agree with those by Allen and co-workers for various neat hydrocarbons. Further, the mechanism of electron transport in non-polar liquids is discussed. Using experimental results for V₀ and E_a for the mixtures (the energy of the electron in its quasifree state and the activation energy of μ_e, respectively) V₀ is expressed by a linear function of E_a: V₀ = −0.42 + 2.6E_a at room temperature and μ_e is correlated with V₀ as an empirical formula μ_e = 125/[1 + 360 exp (15V₀)] based on a trapping model.