A mechanistic study of nitrous oxide adsorption and decomposition on zirconia

FT-IR spectroscopy and mass spectrometry have been used to study the adsorption and decomposition of nitrous oxide on zirconia. It was determined that zirconia cations in the 4+ oxidation state are the site for molecular adsorption of N₂O, whereas Zr³⁺ sites are active toward dissociative adsorption of N₂O at temperatures as low as 25°C. Catalytic decomposition of N₂O on ZrO₂ occurs at temperatures above 350°C and follows first-order reaction kinetics. Experiments utilizing isotopic labeling in conjunction with mass spectrometry were done to elucidate the details of the reaction mechanism. Based on the results presented here, a mechanism for N₂O decomposition on ZrO₂ is proposed. This revised version was published online in July 2006 with corrections to the Cover Date.