Abstract
Abstract In this paper, the properties and dissolution trends of the surfaces doped with different metal atoms on the Al(1 0 0) surface were investigated by the density functional theory calculations. A surface impurity model was proposed by replacing the topmost surface layer Al atoms by Me (Me = Zn, Ga, In, Sn and Pb) atoms with the coverage of 1/9, 1/4, 1/2, and 3/4 monolayer, respectively. Results show that the surface energy of Me–Al(1 0 0) surfaces depends primarily on the nature of the impurity atom species and the monolayer coverage. The work function of Me–Al surfaces is smaller than that of pure Al(1 0 0) surface, and decreases almost linearly with the amount of Me. It is found that the Me–Al alloys are more easily dissolvable than the pure Al, due to the fact that the electrochemical dissolution potential shifts were negative for all Me–Al(1 0 0) surfaces with respect to the clean pure Al(1 0 0) surface.
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