Abstract
To understand the catalytic effect in the Ni–Ni 3P for the growth of carbon nanostructures, the structural and electronic properties of Ni 3P surface are calculated from first-principles calculations. The calculated surface energies for the (0 0 1)-Ni 4P 4-terminated surface, the (0 0 1)-Ni 8-terminated surface, and the (1 1 0)-Ni 8-terminated surface show that the (0 0 1)-Ni 4P 4-terminated surface is energetically more stable within the allowed range of the chemical potential of P. Through the analysis of the partial density of states of Ni and P atoms in surface and bulk states, respectively, it is further found that due to the bond contractions of the surface layer, the core-level shifts of P atoms in the (0 0 1)-Ni 4P 4-terminated surface make P atoms in the Ni 3P particles act as a catalyst. Finally, the obtained results of the work function show that the (0 0 1)-Ni 4P 4-terminated surface has the largest work function when compared with the other two studied surfaces.
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