Perovskite manganites are viewed as one of the key building blocks of oxide spintronics devices due to their attractive physical properties. However, cation off-stoichiometry at epitaxial interfaces between manganites and other materials can lead to interfacial dead layers, severely reducing the device performance. Here, transmission electron microscopy and synchrotron-based spectroscopy are used to demonstrate that oxygen vacancies during growth serve as a critical factor for modifying the cation stoichiometry in pulsed laser deposited La 0.8Sr 0.2MnO 3 films. Near the film/substrate (SrTiO 3) interface, A-site cations (La/Sr) are in excess when oxygen vacancies are induced during film growth, partially substituting Mn. Simultaneously, Sr ...
International audienceThis paper presents our results regarding oxygen incorporation effects in epit...
By using a combination of synchrotron photoemission and a finite element model, the layer-by-layer s...
Interface-dominated materials such as nanocrystalline thin films have emerged as an enthralling clas...
Perovskite manganites are viewed as one of the key building blocks of oxide spintronics devices due ...
Perovskite manganites are viewed as one of the key building blocks of oxide spintronics devices due ...
Transition metal oxides, especially those with perovskite structure, have attracted great attention ...
Transition metal oxides, especially those with perovskite structure, have attracted great attention ...
The trend to reduce device dimensions demands increasing attention to atomic-scale details of struct...
The degradation of the functional properties of epitaxial oxide films and the performance of related...
The degradation of the functional properties of epitaxial oxide films and the performance of related...
The properties of half-metallic manganite thin films depend on the composition and structure in the ...
International audienceProperties of half-metallic manganite thin films depend on the composition and...
International audienceProperties of half-metallic manganite thin films depend on the composition and...
International audienceThis paper presents our results regarding oxygen incorporation effects in epit...
International audienceThis paper presents our results regarding oxygen incorporation effects in epit...
International audienceThis paper presents our results regarding oxygen incorporation effects in epit...
By using a combination of synchrotron photoemission and a finite element model, the layer-by-layer s...
Interface-dominated materials such as nanocrystalline thin films have emerged as an enthralling clas...
Perovskite manganites are viewed as one of the key building blocks of oxide spintronics devices due ...
Perovskite manganites are viewed as one of the key building blocks of oxide spintronics devices due ...
Transition metal oxides, especially those with perovskite structure, have attracted great attention ...
Transition metal oxides, especially those with perovskite structure, have attracted great attention ...
The trend to reduce device dimensions demands increasing attention to atomic-scale details of struct...
The degradation of the functional properties of epitaxial oxide films and the performance of related...
The degradation of the functional properties of epitaxial oxide films and the performance of related...
The properties of half-metallic manganite thin films depend on the composition and structure in the ...
International audienceProperties of half-metallic manganite thin films depend on the composition and...
International audienceProperties of half-metallic manganite thin films depend on the composition and...
International audienceThis paper presents our results regarding oxygen incorporation effects in epit...
International audienceThis paper presents our results regarding oxygen incorporation effects in epit...
International audienceThis paper presents our results regarding oxygen incorporation effects in epit...
By using a combination of synchrotron photoemission and a finite element model, the layer-by-layer s...
Interface-dominated materials such as nanocrystalline thin films have emerged as an enthralling clas...