Add to ORKGThe formation of silicon nanofilms can be described using an approach of nucleation and island growth mechanism with enhanced supercooling. The theoretically derived parameters (∆G, ∆G*, r*, ∆Gv, ∆T) were found to be in the acceptable ranges that, Si nanofilms resembling 8 nm quantum dots could be fabricated on the substrate at extremely low nucleation rates. A Volmer-Weber growth model was used to explain the growth mode, initially by the aggregation of nuclei which increase in size leading to a liquid/solid phase transition. The resulting Si nanofilms were expected to be in an unwetting oval-shaped due to stronger nuclei-nuclei interactions
Homogeneous nucleation is rare except in theory. We observed repeating events of homogeneous nucleat...
This thesis was developed to address the following questions for the Pb/Si(111) system: (1) Is it po...
Porous silicon is considered to be composed either of spherical shaped interconnected silicon quantu...
An approach for the calculation of thin film nucleation rate, J is highlighted in this paper. Nucle...
The growth of one-dimensional nanostructures without a metal catalyst via a simple solution method i...
The metal–silicon thin-film system is not isostructural and furthermore exhibits pronounced interdif...
A critical component in the successful application of Si nanowire in electronic and optical devices ...
We measured the nucleation and growth kinetics of solid silicon ( Si) from liquid gold- silicon (AuS...
This dissertation is divided into two parts. The first will discuss a theory that was identified to...
Silicon quantum dots have been grown on sapphire substrate using a self-assembly method of physical ...
The nanoscale Si films with the thickness of 2 nm, 5 nm, 10 nm, and 20 nm were deposited by plasma i...
The shape, size evolution, and nucleation mechanisms of GaAs nanoislands grown at 400 degrees C on A...
Nucleation and growth of hydrogenated microcrystalline silicon films are investigated by scanning pr...
One of the most important fields in semiconductor physics is study the nanostructure of materials wi...
Silicon nanodot is a promising nanostructured material for future single-electron devices in nanoele...
Homogeneous nucleation is rare except in theory. We observed repeating events of homogeneous nucleat...
This thesis was developed to address the following questions for the Pb/Si(111) system: (1) Is it po...
Porous silicon is considered to be composed either of spherical shaped interconnected silicon quantu...
An approach for the calculation of thin film nucleation rate, J is highlighted in this paper. Nucle...
The growth of one-dimensional nanostructures without a metal catalyst via a simple solution method i...
The metal–silicon thin-film system is not isostructural and furthermore exhibits pronounced interdif...
A critical component in the successful application of Si nanowire in electronic and optical devices ...
We measured the nucleation and growth kinetics of solid silicon ( Si) from liquid gold- silicon (AuS...
This dissertation is divided into two parts. The first will discuss a theory that was identified to...
Silicon quantum dots have been grown on sapphire substrate using a self-assembly method of physical ...
The nanoscale Si films with the thickness of 2 nm, 5 nm, 10 nm, and 20 nm were deposited by plasma i...
The shape, size evolution, and nucleation mechanisms of GaAs nanoislands grown at 400 degrees C on A...
Nucleation and growth of hydrogenated microcrystalline silicon films are investigated by scanning pr...
One of the most important fields in semiconductor physics is study the nanostructure of materials wi...
Silicon nanodot is a promising nanostructured material for future single-electron devices in nanoele...
Homogeneous nucleation is rare except in theory. We observed repeating events of homogeneous nucleat...
This thesis was developed to address the following questions for the Pb/Si(111) system: (1) Is it po...
Porous silicon is considered to be composed either of spherical shaped interconnected silicon quantu...