Reaction pathways in the solid state and the Hubbard U correction

Brown, Joshua J.; Page, Alister J.

Title: Reaction pathways in the solid state and the Hubbard U correction
Creator: Brown, Joshua J.; Page, Alister J.
Relation: ARC.LE170100032 http://purl.org/au-research/grants/arc/FL170100032
Relation: Journal of Chemical Physics Vol. 154, Issue 12, no. 124121
Publisher Link: http://dx.doi.org/10.1063/5.0045526
Publisher: AIP
Resource Type: journal article
Date: 2021
Description: We investigate how the Hubbard U correction influences vacancy defect migration barriers in transition metal oxide semiconductors. We show that, depending on the occupation of the transition metal d orbitals, the Hubbard U correction can cause severe instabilities in the migration barrier energies predicted using generalized gradient approximation density functional theory (GGA DFT). For the d0 oxide SrTiO3, applying a Hubbard correction to the Ti4+ 3d orbitals below 4–5 eV yields a migration barrier of ∼0.4 eV. However, above this threshold, the barrier increases suddenly to ∼2 eV. This sudden increase in the transition state barrier arises from the Hubbard U correction changing the Ti4+ t2g/eg orbital occupation, and hence electron density localization, along the migration pathway. Similar results are observed in the d10 oxide ZnO; however, significantly larger Hubbard U corrections must be applied to the Zn2+ 3d orbitals for the same instability to be observed. These results highlight important limitations to the application of the Hubbard U correction when modeling reactive pathways in solid state materials using GGA DFT.
Subject: Hubbard U correction; pathway; transition state; solid state materials
Identifier: http://hdl.handle.net/1959.13/1474742
Identifier: uon:49353
Identifier: ISSN:0021-9606
Rights: This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in Brown, Joshua J.; Page, Alister J. ‘Reaction pathways in the solid state and the Hubbard U correction’. Published in Journal of Chemical Physics Vol. 154, Issue 12, no. 124121 (2021) and may be found at http://dx.doi.org/10.1063/5.0045526.
Language: eng
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