Abstract
Carbon monoxide preferential oxidation (PROX) in an H2-rich stream represents one promising H2 purification technology but requires the development of active and selective catalysts to make the technology viable. We conducted density functional theory simulations of CO PROX catalysis on model Pt alloy systems to establish correlations between the catalyst parameters and the catalytic properties, which validated EA,COOR and EA,HOR as descriptors for CO oxidation and H2 oxidation kinetics, ΔEA as a descriptor for CO PROX selectivity, and ed as a catalyst parameter descriptor for the activation energy barriers. We discovered an interesting compromising relationship between the CO PROX activity and selectivity properties. Pt-Ni and Pt-Mn nanoparticle catalysts were selected for synthesis on the basis of the computational data and tested for their properties, which matched well with the DFT calculations and verified the effectiveness of the computational findings. The use of computation-guided methods and the ...
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