Add to ORKGJournal ArticleWe perform atomistic simulations to compute bending of freestanding nanoscale thin Si film induced by strained Ge islands. We show that a larger Ge dome island can induce smaller bending than a smaller hut island and explain the surprising experimental observation for growth of Ge islands on patterned silicon-on-insulator substrate (SOI) with Si template layer thinned down to nanometer scale. This counterintuitive bending behavior is caused by strain sharing between the film and the ultra thin substrate
Journal ArticleWe perform two-dimensional linear elastic finite element analysis to investigate the ...
We compare transmission electron microscopical analyses of the onset of islanding in the germanium-o...
In this paper, we show that lateral arrangement of Ge/Si(00 1) self-assembled islands in a square ar...
Journal ArticleMechanical bending is ubiquitous in heteroepitaxial growth of thin films where the st...
Journal ArticlePseudomorphic three-dimensional Ge nanocrystals (quantum dots) grown on thin silicon-...
Journal ArticleWe analyze Ge hut island formation on Si(001), using first-principles calculations of...
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Abstract We investigate here the influence of Si substrate miscut on the strain and elastic energy o...
The governing mechanism for a self-bending of Ge/Si bilayer epitaxial nanofilms that results in the ...
On the way to integrate lattice mismatched semiconductors on Si(001), the Ge/Si heterosystem was use...
Journal ArticleA low-energy electron microscopy study of two-dimensional Si(001) island shapes near ...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
Journal ArticleMechanical bending of nanoscale thin films can be quite different from that of macros...
Journal ArticleWe perform two-dimensional linear elastic finite element analysis to investigate the ...
We compare transmission electron microscopical analyses of the onset of islanding in the germanium-o...
In this paper, we show that lateral arrangement of Ge/Si(00 1) self-assembled islands in a square ar...
Journal ArticleMechanical bending is ubiquitous in heteroepitaxial growth of thin films where the st...
Journal ArticlePseudomorphic three-dimensional Ge nanocrystals (quantum dots) grown on thin silicon-...
Journal ArticleWe analyze Ge hut island formation on Si(001), using first-principles calculations of...
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Abstract We investigate here the influence of Si substrate miscut on the strain and elastic energy o...
The governing mechanism for a self-bending of Ge/Si bilayer epitaxial nanofilms that results in the ...
On the way to integrate lattice mismatched semiconductors on Si(001), the Ge/Si heterosystem was use...
Journal ArticleA low-energy electron microscopy study of two-dimensional Si(001) island shapes near ...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
Epitaxial growth can occur layer-by layer or by islanding. The mode of growth depends on the surface...
Journal ArticleMechanical bending of nanoscale thin films can be quite different from that of macros...
Journal ArticleWe perform two-dimensional linear elastic finite element analysis to investigate the ...
We compare transmission electron microscopical analyses of the onset of islanding in the germanium-o...
In this paper, we show that lateral arrangement of Ge/Si(00 1) self-assembled islands in a square ar...