Add to ORKGInducing new phases in thick films via vertical lattice strain is one of the critical advantages of vertically aligned nanocomposites (VANs). In SrTiO3 (STO), the ground state is ferroelastic, and the ferroelectricity in STO is suppressed by the orthorhombic transition. Here, we explore whether vertical lattice strain in three-dimensional VANs can be used to induce new ferroelectric phases in SrTiO3:MgO (STO:MgO) VAN thin films. The STO:MgO system incorporates ordered, vertically aligned MgO nanopillars into a STO film matrix. Strong lattice coupling between STO and MgO imposes a large lattice strain in the STO film. We have investigated ferroelectricity in the STO phase, existing up to room temperature, using piezoresponse force microscopy...
Hafnia-based thin films are a favoured candidate for the integration of robust ferroelectricity at t...
Thin films of PbTiO3, a classical ferroelectric, have been grown under tensile strain on single-crys...
The impact of strain on structure and ferroelectric properties of epitaxial SrTiO3 films on various ...
In this work, I start by introducing a relatively recently innovated thin film architecture which of...
Advances in complex oxide heteroepitaxy have highlighted the enormous potential of utilizing strain ...
Due to their tendency to form ionic states, transition metal oxides and especially SrTiO3 exhibit ex...
A previously unreported tetragonal phase has been discovered in a epitaxially strained GdMnO3 thin f...
International audienceEpitaxial SrTiO3 (STO)/Si templates open a unique opportunity for the integrat...
The enhancement of the functional properties of materials at reduced dimensions is crucial for conti...
Biaxial strain is known to induce ferroelectricity in thin films of nominally non-ferroelectric mate...
International audienceStructural and physical consequences of downsizing to form nanopowders or nano...
Progress in nanotechnology requires new approaches to materials synthesis that make it possible to c...
Designing novel multiferroic materials with simultaneous ferroelectric and magnetic orders has been ...
The potential for creating hierarchical domain structures, or mixtures of energetically degenerate p...
Hafnia-based thin films are a favoured candidate for the integration of robust ferroelectricity at t...
Thin films of PbTiO3, a classical ferroelectric, have been grown under tensile strain on single-crys...
The impact of strain on structure and ferroelectric properties of epitaxial SrTiO3 films on various ...
In this work, I start by introducing a relatively recently innovated thin film architecture which of...
Advances in complex oxide heteroepitaxy have highlighted the enormous potential of utilizing strain ...
Due to their tendency to form ionic states, transition metal oxides and especially SrTiO3 exhibit ex...
A previously unreported tetragonal phase has been discovered in a epitaxially strained GdMnO3 thin f...
International audienceEpitaxial SrTiO3 (STO)/Si templates open a unique opportunity for the integrat...
The enhancement of the functional properties of materials at reduced dimensions is crucial for conti...
Biaxial strain is known to induce ferroelectricity in thin films of nominally non-ferroelectric mate...
International audienceStructural and physical consequences of downsizing to form nanopowders or nano...
Progress in nanotechnology requires new approaches to materials synthesis that make it possible to c...
Designing novel multiferroic materials with simultaneous ferroelectric and magnetic orders has been ...
The potential for creating hierarchical domain structures, or mixtures of energetically degenerate p...
Hafnia-based thin films are a favoured candidate for the integration of robust ferroelectricity at t...
Thin films of PbTiO3, a classical ferroelectric, have been grown under tensile strain on single-crys...
The impact of strain on structure and ferroelectric properties of epitaxial SrTiO3 films on various ...