Effect of Water Molecule on Photo-Assisted Nitrous Oxide Decomposition over Oxotitanium Porphyrin: A Theoretical Study

Abstract: Water vapor has generally been recognized as an inhibitor of catalysts in nitrous oxide (N2O) decomposition because it limits the lifetime of catalytic reactors. Oxygen produced in reactions also deactivates the catalytic performance of bulk surface catalysts. Herein, we propose a potential catalyst that is tolerant of water and oxygen in the process of N2O decomposition. By applying density functional theory calculations, we investigated the reaction mechanism of N2O decomposition into N2 and O2 catalyzed by … Show more

“…The reactivity and the problems generated by this molecule are different from those of other nitrogen oxides, contributing to ozone layer depletion and the greenhouse effect. Maitarad et al [24] studied the effect of water on photo-assisted nitrous oxide decomposition over oxotitanium porphyrin and proposed, using density functional theory calculations, a potential catalyst that was tolerant to water and oxygen because of its low activation barrier, water resistance, and easy regeneration.…”

Editorial Catalysts: Catalysis for the Removal of Gas-Phase Pollutants

“…The reactivity and the problems generated by this molecule are different from those of other nitrogen oxides, contributing to ozone layer depletion and the greenhouse effect. Maitarad et al [24] studied the effect of water on photo-assisted nitrous oxide decomposition over oxotitanium porphyrin and proposed, using density functional theory calculations, a potential catalyst that was tolerant to water and oxygen because of its low activation barrier, water resistance, and easy regeneration.…”

Editorial Catalysts: Catalysis for the Removal of Gas-Phase Pollutants

Conversion of C4F8 via plasma catalysis over Al2O3/Zr/SO4-2 catalyst: Effects of H2O(g)