Silicon-coordinated nitrogen-doped graphene as a promising metal-free catalyst for NO reduction by CO: a theoretical study.

Metal-free catalysts for the transformation of NO and CO into green products under mild conditions have long been expected. The present work proposes using silicon-coordinated nitrogen-doped graphene (SiNG) as a catalyst for NO reduction and CO oxidation based on periodic DFT calculations. The reaction proceeds two steps, which are NO reduction at the Si reaction center, producing Si-O*, which subsequently oxidizes CO to CO. The NO reduction occurs with an activation energy barrier of 0.34 eV, while the CO oxidation step requires an energy of 0.66 eV. The overall reaction is highly exothermic, with a reaction energy of -3.41 eV, mostly due to the N generation step. Compared to other metal-free catalysts, SiNG shows the higher selectivity because it not only strongly prefers to adsorb NO over CO, but the produced N and CO are easily desorbed, which prevents the poisoning of the active catalytic sites. These results demonstrate that SiNG is a promising metal-free catalyst for NO reduction and CO oxidation under mild conditions, as the reaction is both thermodynamically and kinetically favorable.