AlN4-Graphene as an efficient catalyst for CO oxidation: a DFT study

Encouraged by the previous experimental reports on the catalytic activity of aluminum porphyrins in the decomposition of water into hydrogen peroxide and hydrogen as well as the copolymerization of carbon dioxide and propylene oxide, we proposed that AlN4-Gr with the Al-N-C structure could be used as a catalyst for CO oxidation. The theoretical calculation results show that O(2)is more likely to get adsorbed at the active site than CO and no energetically favorable coadsorption configurations are obtained. Combining with the difficult dissociation of O-2, it is predicted that CO oxidation on AlN4-Gr first proceedsviaattacking the pre-adsorbed O(2)by free CO molecules to form the first CO(2)with an energy barrier of 0.44 eV. The remaining atomic O is then approached by another CO molecule and finally releases CO(2)without any energy barrier. The results of temperature effect further indicate that AlN4-Gr is a promising catalyst for CO oxidation at a mild temperature. It can be seen that the good catalytic activity of AlN4-Gr for CO oxidation may have originated from the moderate adsorption of O(2)and O atoms. These findings offer a new route for the design of novel low-cost and efficient catalysts with main-group metals.