2018
DOI: 10.1103/physrevmaterials.2.083604
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Tuning the probability of defect formation via substrate strains in Sr2FeMoO6 films

Abstract: Since oxide materials like Sr2FeMoO6 are usually applied as thin films, we studied the effect of biaxial strain, resulting from the substrate, on the electronic and magnetic properties and, in particular, on the formation energy of point defects. From our first-principles calculations, we determined that the probability of forming point defects -like vacancies or substitutions -in Sr2FeMoO6 could be adjusted by choosing a proper substrate. For example, the amount of anti-site disorder can be reduced with compr… Show more

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Cited by 7 publications
(15 citation statements)
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“…In accordance with a low AS defect formation energy, Fe/Mo nonstoichiometry in SFMO is mainly accommodated by Fe and Mo AS defects, that is, by Fe atoms on Mo sites and vice versa. A crude estimation of the lower energy limit for the formation of lattice defects in a cubic crystal consisting of an A‐atom in a host position B may be given by the elastic energy required for a volume change Δ V ≈ 3/2Δ r : Δ H f ( normalA normalB ) = ( 3 8 ( c 11 + 2 c 12 ) + π ( c 11 c 12 ) ) a ( Δ r ) 2 where c ij are elastic constants, a the lattice constant, and Δ r the difference of the ion radii of the host and impurity atoms .…”
Section: Phase Stability and Point Defects In Sr2femoo6−δmentioning
confidence: 76%
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“…In accordance with a low AS defect formation energy, Fe/Mo nonstoichiometry in SFMO is mainly accommodated by Fe and Mo AS defects, that is, by Fe atoms on Mo sites and vice versa. A crude estimation of the lower energy limit for the formation of lattice defects in a cubic crystal consisting of an A‐atom in a host position B may be given by the elastic energy required for a volume change Δ V ≈ 3/2Δ r : Δ H f ( normalA normalB ) = ( 3 8 ( c 11 + 2 c 12 ) + π ( c 11 c 12 ) ) a ( Δ r ) 2 where c ij are elastic constants, a the lattice constant, and Δ r the difference of the ion radii of the host and impurity atoms .…”
Section: Phase Stability and Point Defects In Sr2femoo6−δmentioning
confidence: 76%
“…First‐principle calculations reveal that the most abundant point defects in SFMO are oxygen vacancies (Figure b) as well as antisite defect pairs Fe Mo and Mo Fe (Figure c) . They yield a diminution of half‐metallic character by Fe Mo antisite defects and Mo vacancies, that is, in Fe‐rich SFMO films, as well as by Fe Mo + Mo Fe pairs . According to other first‐principle calculations, the half‐metallic characters are maintained for SFMO containing Fe Mo and Fe vacancies (i.e., in Mo‐rich films), oxygen vacancies, or Sr vacancies .…”
Section: Introductionmentioning
confidence: 82%
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