Add to ORKG© 2020 Elsevier B.V. Numerous theoretical and experimental studies show that during epitaxial growth according to the Stranski-Krastanow mechanism in systems mismatched by the lattice constant, the change in the surface energy of the system during nucleation and further growth of quantum dots, plays the most important role. In particular, this factor determines the equilibrium and critical thicknesses of the transition from two-dimensional to three-dimensional growth, and also affects other kinetic characteristics of the ensemble of nanoclusters, including the nucleation rate, surface density, and average size of the islands. Recent theoretical studies have made it possible to determine that the surface energy in this process depends on the...
In this paper we revisit models for the description of the evolution of crystalline films with aniso...
A new technique for producing electron systems with quantum confinement in three dimensions, quantum...
We present in detail a thermodynamic equilibrium model for the growth of nanostructures on semicondu...
Epitaxial growth of germanium quantum dots on an oxidized silicon surface is considered. A kinetic m...
Epitaxial self-assembled quantum dots (SAQDs) result from Stranski-Krastanow growth whereby epitaxia...
This article presents the results of three-dimensional modeling of heteroepitaxial thin film growth ...
Experimental results indicate a particular importance of such a value as the equilibrium thickness o...
A comparative analysis is carried out of the growth peculiarities under molecular-beam epitaxy of ge...
In this paper theoretical modeling of formation and growth of germanium–silicon quantum dots in the ...
Strained epitaxial growth of Ge on Si(001) produces self-assembled, nanometer scale islands, or quan...
© 2018 Elsevier B.V. Quantum Dots (QDs) are considered as an efficient building block of many optoel...
In this paper refining of mathematical model for calculation of parameters of selforganised quantum ...
Quantum dots (QD) have discrete energy spectrum, which can be adjusted over a wide range by tuning c...
The self-assembly of heteroepitaxial quantum dots on ultrathin substrates is analyzed within the con...
Nowadays, two-dimensional crystals (2D materials) and structures with quantum dots (0D materials) ar...
In this paper we revisit models for the description of the evolution of crystalline films with aniso...
A new technique for producing electron systems with quantum confinement in three dimensions, quantum...
We present in detail a thermodynamic equilibrium model for the growth of nanostructures on semicondu...
Epitaxial growth of germanium quantum dots on an oxidized silicon surface is considered. A kinetic m...
Epitaxial self-assembled quantum dots (SAQDs) result from Stranski-Krastanow growth whereby epitaxia...
This article presents the results of three-dimensional modeling of heteroepitaxial thin film growth ...
Experimental results indicate a particular importance of such a value as the equilibrium thickness o...
A comparative analysis is carried out of the growth peculiarities under molecular-beam epitaxy of ge...
In this paper theoretical modeling of formation and growth of germanium–silicon quantum dots in the ...
Strained epitaxial growth of Ge on Si(001) produces self-assembled, nanometer scale islands, or quan...
© 2018 Elsevier B.V. Quantum Dots (QDs) are considered as an efficient building block of many optoel...
In this paper refining of mathematical model for calculation of parameters of selforganised quantum ...
Quantum dots (QD) have discrete energy spectrum, which can be adjusted over a wide range by tuning c...
The self-assembly of heteroepitaxial quantum dots on ultrathin substrates is analyzed within the con...
Nowadays, two-dimensional crystals (2D materials) and structures with quantum dots (0D materials) ar...
In this paper we revisit models for the description of the evolution of crystalline films with aniso...
A new technique for producing electron systems with quantum confinement in three dimensions, quantum...
We present in detail a thermodynamic equilibrium model for the growth of nanostructures on semicondu...