Abstract
A large number of published experimental works suggest that when the Fe ions in orthorhombic LaFeO3 are substituted, band gap reduction is expected. However, recent experimental works observe band gap enhancement with increasing Ti ions replacing Fe ions. While satisfactory explanation on such observations seem absent, a first principles investigation may answer what should really happen. We investigate from first-principles the influence of Ti substitution on LaFeO3 at Fe-site as a function of substitution concentration. Amongst the five investigated models, we found that as the Ti substitution concentration increases, the electronic band gap at Fermi level decreases. However, in the model where two Ti ions replace Fe sites in an anti-symmetric arrangement, the Fermi level is crossed. We found that band gap reductions could be caused by the decreased in field splitting between the Fe 3d orbitals and charge competition between Fe-O and Ti-O bonds as inferred from density of states analysis. While band gap reduction with increasing substitution implies better conductivity, cohesive energy becomes less negative although the perovskite distortion parameter does not differ significantly between each models.
Original language | English |
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Publisher | Cornell University |
Publication status | Published - 23 Jan 2024 |
Keywords
- First-principles
- Electronic structure
- LaFeO3
- Substitution