Add to ORKGThe microscopic origin of chemical expansion in perovskite oxides, due to formation of oxygen vacancies accompanied by formal reduction of a 3d transition metal, is studied by first-principles calculations. We compare the II–IV manganite and titanate series, having Ca, Sr, or Ba on the A site. In particular, the effect of electron localization is elucidated by systematically varying the Hubbard U, and we find that the localization behavior is significantly different in the manganites and titanates. The chemical expansion is explicitly calculated for all compounds, and we demonstrate that increasing on-site repulsion (Hubbard U) on the B site in the lattice yields increased chemical expansion in the manganites and reduced chemical expansion ...
The oxidation states of Mn in low concentration (< 0.1 atom%) in donor doped $BaTiO_3$ and $SrTiO_3$...
International audienceDefect engineering in catalytic materials is a versatile strategy to fine-tune...
Abstract: Oxygen engineering is an important tool for on-demand tailoring of manganese related perov...
We use first-principles calculations based on density functional theory to investigate the interplay...
We use first-principles calculations based on density functional theory to investigate the interplay...
We report the existence of a two-dimensional electron system (2DES) at the (001) surface of CaTiO3. ...
© 2018 Based on recent experimental and theoretical proofs of calcium multisite occupation in barium...
With respect to the double-exchange hopping mechanism, the role of chemical element sitting at perov...
The Metal-Insulator transition (MIT) upon cooling at elevated temperatures is a fascinating effect ...
[[abstract]]Electronic structures of orthorhombic perovskite-type manganites (OM) and hexagonal mang...
In perovskite oxide materials, because of the insertion of multiple valence states ions (e.g., Mn ...
An improved understanding of the correlation between the electronic properties of Mn-O bonds, activi...
We have performed a computational study on the rare-earth (RE) doping of the perovskite structured m...
Manganites are type of manganese oxides having mixed valence states with perovskite structure repres...
Advisors: Omar Chmaissem.Committee members: Dennis Brown; Bogdan Dabrowski; Yasuo Ito.Includes illus...
The oxidation states of Mn in low concentration (< 0.1 atom%) in donor doped $BaTiO_3$ and $SrTiO_3$...
International audienceDefect engineering in catalytic materials is a versatile strategy to fine-tune...
Abstract: Oxygen engineering is an important tool for on-demand tailoring of manganese related perov...
We use first-principles calculations based on density functional theory to investigate the interplay...
We use first-principles calculations based on density functional theory to investigate the interplay...
We report the existence of a two-dimensional electron system (2DES) at the (001) surface of CaTiO3. ...
© 2018 Based on recent experimental and theoretical proofs of calcium multisite occupation in barium...
With respect to the double-exchange hopping mechanism, the role of chemical element sitting at perov...
The Metal-Insulator transition (MIT) upon cooling at elevated temperatures is a fascinating effect ...
[[abstract]]Electronic structures of orthorhombic perovskite-type manganites (OM) and hexagonal mang...
In perovskite oxide materials, because of the insertion of multiple valence states ions (e.g., Mn ...
An improved understanding of the correlation between the electronic properties of Mn-O bonds, activi...
We have performed a computational study on the rare-earth (RE) doping of the perovskite structured m...
Manganites are type of manganese oxides having mixed valence states with perovskite structure repres...
Advisors: Omar Chmaissem.Committee members: Dennis Brown; Bogdan Dabrowski; Yasuo Ito.Includes illus...
The oxidation states of Mn in low concentration (< 0.1 atom%) in donor doped $BaTiO_3$ and $SrTiO_3$...
International audienceDefect engineering in catalytic materials is a versatile strategy to fine-tune...
Abstract: Oxygen engineering is an important tool for on-demand tailoring of manganese related perov...