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Density Functional Studies on the Atomistic Structure and Properties of Iron Oxides: A Parametric Study

Shujie Zhang, Kejiang Li, Yan Ma, Feng Guo, Chunhe Jiang, Liang Zeng, Yushan Bu, Jianliang Zhang

2022Materials19 citationsDOIOpen Access PDF

Abstract

With the aim to find the best simulation routine to accurately predict the ground-state structures and properties of iron oxides (hematite, magnetite, and wustite) using density functional theory (DFT) with Hubbard-U correction, a significant amount of DFT calculations were conducted to investigate the influence of various simulation parameters (energy cutoff, K-point, U value, magnetization setting, smearing value, etc.) and pseudopotentials on the structures and properties of iron oxides. With optimized simulation parameters, the obtained equation of state, lattice constant, bulk moduli, and band gap is much closer to the experimental values compared with previous studies. Due to the strong coupling between the 2p orbital of O and the 3d orbital of Fe, it was found that Hubbard-U correction obviously improved the results for all three kinds of iron oxides including magnetite which has not yet been tested with U correction before, but the U value should be different for different oxides (3 ev, 4 ev, 4 ev for hematite, magnetite, and wustite, respectively). Two kinds of spin magnetism settings for FeO are considered, which should be chosen according to different calculation purposes. The detailed relationship between the parameter settings and the atomic structures and properties were analyzed, and the general principles for future DFT calculation of iron oxides were provided.

Topics & Concepts

WüstiteMagnetiteDensity functional theoryHematiteMagnetismMaterials scienceLattice constantGround stateBand gapElectronic structureCondensed matter physicsThermodynamicsChemistryComputational chemistryPhysicsQuantum mechanicsMetallurgyDiffractionIron oxide chemistry and applicationsMagnetic Properties and Synthesis of FerritesX-ray Diffraction in Crystallography
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