Electrochemical Stability of Magnesium Surfaces in an Aqueous Environment

An insight into the electrochemical stability of Mg surfaces is of practical importance for improving the corrosion resistance of Mg as well as its performance as a battery electrode. The present paper employs first-principles density functional theory simulations to study the electrochemical stability of magnesium surfaces in aqueous environments. A number of electrochemical reactions that describe the interactions between the Mg(0001) surface and water were analyzed. It was verified that water dissociation is favored upon the Mg surface, in agreement with recent works; however, it is also shown that the previously unstudied Heyrovsky reaction may play an important role in controlling the surface stability. Furthermore, it was found that the surface stability also crucially depends on the concentration of adsorbed hydroxyl groups. Specifically, the surface work function was determined to vary as the function of hydroxyl coverage, which has ramifications for the catalytic behavior of the Mg surface. The i...