화학공학소재연구정보센터
Journal of Physical Chemistry B, Vol.109, No.37, 17630-17634, 2005
NO chemisorption on Pt(111), Rh/Pt(111), and Pd/Pt(111)
The chemisorption of NO on clean Pt(111), Rh/Pt(111) alloy, and Pd/Pt(1 11) alloy surfaces has been studied by first principles density functional theory (DFT) computations. It was found that the surface compositions of the surface alloys have very different effects on the adsorption of NO on Rh/Pt(1 11) versus that on Pd/ Pt(1 11). This is due to the different bond strength between the two metals in each alloy system. A complex d-band center weighting model developed by authors in a previous study for SO2 adsorption is demonstrated to be necessary for quantifying NO adsorption on Pd/Pt(1 11). A strong linear relationship between the weighted positions of the d states of the surfaces and the molecular NO adsorption energies shows the closer the weighted d-band center is shifted to the Fermi energy level, the stronger the adsorption of NO will be. The consequences of this study for the optimized design of three-way automotive catalysts, (TWC) are also discussed.