posted on 2024-09-18, 10:33authored byA Cadi-Essadek, A Roldan, A Santos-Carballal, PE Ngoepe, NH de Leeuw
Cobalt nanoparticles play an important role as a catalyst in the Fischer-Tropsch synthesis. During the reaction process, cobalt nanoparticles can become oxidised leading to the formation of two phases: CoO rock-salt and Co3O4 cubic spinel. It is therefore important to develop a fundamental description, at the atomic scale, of cobalt and its oxide phases which we have done here using density functional theory with the Dudarev approach to account for the on-site Coulomb interactions (DFT+U). We have explored different Ueff values, ranging from 0 to 5 eV, and found that Ueff = 3.0 eV describes most appropriately the mechanical properties, as well as the electronic and magnetic structures of Co, CoO, and Co3O4.
The data described here are:
1- Calculated lattice parameters (c/a) for Co and (a) for the cubic cells of CoO and Co3O4 for different U values.
2- The calculated bulk modulus for different U values for Co, CoO, and Co3O4.
3- The magnetic moment per Co atom and band gap as a function of the U parameter for Co, CoO, and Co3O4.
4- The percent error of the unit cell, bulk modulus, magnetic moment, and band gap, as a function of the U parameter for Co, CoO, and Co3O4
5- The Electronic density of states (DOS) of Co, CoO, and Co3O4
6- The elastic constants (in GPa) of the three materials Co, CoO and Co3O4
Funding
Energy materials: Computational solutions (2015-02-01 - 2019-05-19); De Leeuw, Nora. Funder: Engineering and Physical Sciences Research Council
Computational Catalysis: a sustainable UK-South Africa partnership in high performance computing