Add to ORKGJournal ArticleWe demonstrate, by both theory and experiment, the strain-induced self-organized formation of "quantum platelets," monolayer-thick islands of finite dimensions. They form at the early stage of heteroepitaxial growth on a substrate with regularly spaced steps, and align along the steps. In the direction perpendicular to substrate steps, the island position and spacing can be preselected through substrate miscut. Along the steps, the island size and density are controlled by self-organized growth
anisms (i) or (ii) alone can account for known experimental observations. Rather, a combination of b...
Journal ArticleA theoretical model for the Volmer-Weber growth of three-dimensional metal islands is...
Self-assembled quantum dots can be the building blocks of a variety of mesoscopic devices. However, ...
Journal ArticleComputer simulations show that if stress is present, steps on a vicinal surface can s...
Journal ArticleWe develop a theoretical model for step flow growth of multilayer films, taking into ...
Journal ArticleFrom observations of self-assembly of Ge quantum dots directed by substrate morpholog...
Journal ArticleA model is proposed to elucidate the evolution of the morphology of strained 3D islan...
2010-2011 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
A spontaneous growth instability which occurs in heteroepitaxy of strained systems is the Stranski-K...
We model the effect of substrate strain patterning on the self-assembly of quantum dots (QDs). When ...
Journal ArticleWe demonstrate two distinctive effects of strain-induced island-island interaction on...
It is a well known fact that strain-driven self-assembly via Stranski-Krastonov growth is a promisin...
The dynamics of island formation on strained epitaxial films is investigated using the system formed...
In the Stranski–Krastanov growth mode for heteroepitaxial systems, layer-by-layer growth is followed...
In this thesis I describe an approach toward investigating moving interfaces, surface stabilities an...
anisms (i) or (ii) alone can account for known experimental observations. Rather, a combination of b...
Journal ArticleA theoretical model for the Volmer-Weber growth of three-dimensional metal islands is...
Self-assembled quantum dots can be the building blocks of a variety of mesoscopic devices. However, ...
Journal ArticleComputer simulations show that if stress is present, steps on a vicinal surface can s...
Journal ArticleWe develop a theoretical model for step flow growth of multilayer films, taking into ...
Journal ArticleFrom observations of self-assembly of Ge quantum dots directed by substrate morpholog...
Journal ArticleA model is proposed to elucidate the evolution of the morphology of strained 3D islan...
2010-2011 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
A spontaneous growth instability which occurs in heteroepitaxy of strained systems is the Stranski-K...
We model the effect of substrate strain patterning on the self-assembly of quantum dots (QDs). When ...
Journal ArticleWe demonstrate two distinctive effects of strain-induced island-island interaction on...
It is a well known fact that strain-driven self-assembly via Stranski-Krastonov growth is a promisin...
The dynamics of island formation on strained epitaxial films is investigated using the system formed...
In the Stranski–Krastanov growth mode for heteroepitaxial systems, layer-by-layer growth is followed...
In this thesis I describe an approach toward investigating moving interfaces, surface stabilities an...
anisms (i) or (ii) alone can account for known experimental observations. Rather, a combination of b...
Journal ArticleA theoretical model for the Volmer-Weber growth of three-dimensional metal islands is...
Self-assembled quantum dots can be the building blocks of a variety of mesoscopic devices. However, ...