First-principles study of surface structure estimation in L10-FePd(001)/graphene heterojunction

Abstract

In this paper, we present a theoretical and computational investigations of the atomic scale structure of the heterointerface formed between the (001) surface of L10-ordered iron palladium (FePd) alloy and graphene (Gr), namely, L10-FePd(001)/Gr. Using density functional theory (DFT) calculations, we demonstrate that the topmost surface layer consisting of Pd (Pd-terminated surface) becomes more energetically stable than Fe, and Pd-terminated surfaces are not conducive to Gr adsorption. On the other hand, under oxygen atmosphere conditions, our calculation suggests the presence of Fe-terminated surfaces with Gr-covered structures reproducing recent experimental observations. Moreover, the finding of Fe--O bonds formed by oxidizated surface is also consistent with those of X-ray photoelectron spectroscopy. These findings are crucial for understanding the fabrication processes of interfaces in Fe-based L10 alloy materials.

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