Oxidation of CO on a carbon-based material composed of nickel hydroxide and hydroxyl graphene oxide, (Ni-4(OH)(3)-hGO) - a first-principles calculation

摘要

Nickel or nickel hydroxide clusters and graphene oxide GO) composites are novel nanomaterials in the application of electrochemical catalysts. In this work, we calculated the energy of Ni-4 adsorbed onto saturated hydroxyl graphene oxide hGO), which forms a Ni-4(OH)(3) cluster on the hydroxyl graphene oxide Ni-4(OH)(3)-hGO) and releases 4.47 eV 5.22 eV with DFT-D3 correction). We subsequently studied the oxidation of CO on the Ni-4(OH)(3)-hGO system via three mechanisms - LH, ER and carbonated mechanisms. Our results show that the activation energy for oxidation of the first CO molecule according to the ER mechanism is 0.14 eV 0.12 eV with DFT-D3 correction), much smaller than that with LH (E-a = 0.65 eV, 0.61 eV with DFT-D3 correction) and with carbonated Ea = 1.28 eV, 1.20 eV with DFT-D3 correction) mechanisms. The barrier to oxidation of the second CO molecule to CO2 with the ER mechanism increases to 0.43 eV 0.37 eV with DFT-D3 correction), but still less than that via LH Ea = 1.09 eV, 1.07 eV with DFT-D3 correction), indicating that CO could be effectively oxidized through the ER mechanism on the Ni-4(OH)(3)/hGO catalyst.