Abstract
In this work, single-crystalline one-dimensional Co3O4 nanorods with well-defined crystal planes as catalysts in the selective catalytic reduction of NO by ammonia are investigated. The Co3O4 nanorods synthesized by ethylene glycol-mediated precipitation at 160°C predominantly expose {110} planes which are rich in Co3+ species, while the traditional Co3O4 nanoparticles expose the {001} and {111} planes which contain mainly Co2+ species. Compared with Co3O4 nanoparticles, Co3O4 nanorods show much higher NOx conversion in NH3-SCR reaction. TPD of various reactant gases, including NH3, NO, NO/NH3, NO/O2, NO/NH3/O2, and transient experiment reveals Co3O4 nanorods adsorb a large amount of ammonia on their surface. Slight surface H2 reduction significantly decreases the activity of Co3O4 nanocrystals, while O2 re-oxidation partially recovers their catalytic activity, demonstrating the presence of Co3+ cations on the surface of Co3O4 nanocatalysts actually acts as the active sites in NH3-SCR reaction. The present results indicate that novel catalyst with high activity can be designed by morphology control at nanoscale.
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