Add to ORKGDespite extensive studies on the effects of epitaxial strain on the evolution of the lattice and properties of materials, considerably less work has explored the impact of strain on growth dynamics. In this work, we demonstrate a growth-mode transition from 2D-step flow to self-organized, nanoscale 3D-island formation in PbZr0.2Ti0.8O3/SrRuO3/SrTiO3 (001) heterostructures as the kinetics of the growth process respond to the evolution of strain. With increasing heterostructure thickness and misfit dislocation formation at the buried interface, a periodic, modulated strain field is generated that alters the adatom binding energy and, in turn, leads to a kinetic instability that drives a transition from 2D growth to ordered, 3D-island formatio...
We have studied the effects of strain and substrate constraint on structural phase transitions of pe...
The role of epitaxial strain and chemical termination in selected interfaces of perovskite oxide het...
Abstract Oxygen vacancy migration and ordering in perovskite oxides enable manipulation of material...
Oxide thin films often exhibit a tendency toward self-organized growth forming regular arrays of thr...
Revealing growth mechanism of a thin film and properties of its film substrate interface necessarily...
Epitaxial strain has been extensively used to control and induce new properties in complex oxide thi...
Epitaxial strain has been extensively used to control and induce new properties in complex oxide thi...
Abstract Epitaxy of perovskite oxide ferroelectric heterostructures with large lattice misfit is cru...
We demonstrate the strain release of LaAlO{sub 3} epitaxial film on SrTiO{sub 3} (001) by inserting ...
The spontaneous formation of double chemical terminated surfaces of La<sub>0.7</sub>Sr<sub>0.3</sub>...
Strain engineering of thin films is a conventionally employed approach to enhance material propertie...
Abstract Single-crystal epitaxial films of technologically important and scientifically intriguing ...
A spontaneous growth instability which occurs in heteroepitaxy of strained systems is the Stranski-K...
Increasing miniaturization in ferroelectrics allows creating complex domain structures with novel fu...
We have studied the effects of strain and substrate constraint on structural phase transitions of pe...
We have studied the effects of strain and substrate constraint on structural phase transitions of pe...
The role of epitaxial strain and chemical termination in selected interfaces of perovskite oxide het...
Abstract Oxygen vacancy migration and ordering in perovskite oxides enable manipulation of material...
Oxide thin films often exhibit a tendency toward self-organized growth forming regular arrays of thr...
Revealing growth mechanism of a thin film and properties of its film substrate interface necessarily...
Epitaxial strain has been extensively used to control and induce new properties in complex oxide thi...
Epitaxial strain has been extensively used to control and induce new properties in complex oxide thi...
Abstract Epitaxy of perovskite oxide ferroelectric heterostructures with large lattice misfit is cru...
We demonstrate the strain release of LaAlO{sub 3} epitaxial film on SrTiO{sub 3} (001) by inserting ...
The spontaneous formation of double chemical terminated surfaces of La<sub>0.7</sub>Sr<sub>0.3</sub>...
Strain engineering of thin films is a conventionally employed approach to enhance material propertie...
Abstract Single-crystal epitaxial films of technologically important and scientifically intriguing ...
A spontaneous growth instability which occurs in heteroepitaxy of strained systems is the Stranski-K...
Increasing miniaturization in ferroelectrics allows creating complex domain structures with novel fu...
We have studied the effects of strain and substrate constraint on structural phase transitions of pe...
We have studied the effects of strain and substrate constraint on structural phase transitions of pe...
The role of epitaxial strain and chemical termination in selected interfaces of perovskite oxide het...
Abstract Oxygen vacancy migration and ordering in perovskite oxides enable manipulation of material...