Mass-Independent Oxygen Isotope (16O, 17O, 18O) Fractionation Found in Hx, Ox Reactions

Abstract

The oxygen isotopic composition (16O, 17O, 18O) of the products produced in Hx, Ox reactions has been investigated using a fast flow reactor. The products were trapped at liquid nitrogen temperature. Measurement of all stable oxygen isotopes on reaction products enhanced distinction between mass-dependent and mass-independent fractionation processes. It was observed that all product species were mass-independently fractionated (MIF). Kinetic analysis suggests that MIF may derive from the H + O2 + M reaction. Kinetic analysis and discussion of the potential role of symmetry reactions are presented. The similarity of isotopic behavior between this reaction and ozone formation suggests a common origin. Currently, no theory explains the mass-independent fractionation observed in any gas-phase chemical reaction. Due to its atmospheric importance, possible isotopic implications for the Earth's atmosphere are discussed.