Add to ORKGThe two-dimensional (2D) growth of cubic-structured (silicon) Si nanosheets (SiNSs) was investigated. Freestanding, single-crystalline SiNSs with a thickness of 5–20 nm were grown on various Si substrates under an atmospheric chemical vapor deposition process. Systematic investigation indicated that a diffusion-limited aggregation (DLA) environment that leads to dendritic growth in <110> directions at the initial stage is essential for 2D growth. The kinetic aspects under DLA environments that ascribe to the dendritic and 2D growth were discussed. Under the more dilute conditions made by addition of Ar to the flow of H2, the SiNSs grew epitaxially on the substrates with periodic arrangement at a specific angle depending on the orienta...
The synthesis of Si nanowires was achieved via hot-wire chemical vapor deposition using an indium ca...
Dendritic morphology as a defining feature for a large number of natural things like pinetrees, snow...
We investigated the effect of the deposition rate on the surface morphology of Si nanowhiskers (NW) ...
Silicon has a diamond-like cubic crystal lattice for which two-dimensional (2D) nanometer thickness ...
The epitaxial growth of Si nanocolumns on Si nanowires was studied using hot-wire chemical vapor dep...
Self-assembled nanowires offer the prospect of accurate and scalable device engineering at an atomis...
International audienceWe present a nanoscale investigation by means of scanning tunneling microscopy...
Highly oriented silicon nanowires were grown on Si (111) substrate via a solid-liquid-solid (SLS) me...
Single-crystal, Al-catalyzed Si nanowires (SiNWs) were grown under atmospheric pressure using the di...
The growth of kinetically self-organized 2D islands in Si/Si(111) epitaxy is described. The island s...
International audienceIn this work we have studied a way to control the growth of small diameter sil...
Having fueled the microelectronics industry for over 50 years, silicon is arguably the most studied ...
The growth of one-dimensional nanostructures without a metal catalyst via a simple solution method i...
The self organized growth of crystalline silicon nanodots and their structural characteristics are i...
The growth mechanism of silicon nanocrystals (Si NCs) synthesized at a high rate by means of expandi...
The synthesis of Si nanowires was achieved via hot-wire chemical vapor deposition using an indium ca...
Dendritic morphology as a defining feature for a large number of natural things like pinetrees, snow...
We investigated the effect of the deposition rate on the surface morphology of Si nanowhiskers (NW) ...
Silicon has a diamond-like cubic crystal lattice for which two-dimensional (2D) nanometer thickness ...
The epitaxial growth of Si nanocolumns on Si nanowires was studied using hot-wire chemical vapor dep...
Self-assembled nanowires offer the prospect of accurate and scalable device engineering at an atomis...
International audienceWe present a nanoscale investigation by means of scanning tunneling microscopy...
Highly oriented silicon nanowires were grown on Si (111) substrate via a solid-liquid-solid (SLS) me...
Single-crystal, Al-catalyzed Si nanowires (SiNWs) were grown under atmospheric pressure using the di...
The growth of kinetically self-organized 2D islands in Si/Si(111) epitaxy is described. The island s...
International audienceIn this work we have studied a way to control the growth of small diameter sil...
Having fueled the microelectronics industry for over 50 years, silicon is arguably the most studied ...
The growth of one-dimensional nanostructures without a metal catalyst via a simple solution method i...
The self organized growth of crystalline silicon nanodots and their structural characteristics are i...
The growth mechanism of silicon nanocrystals (Si NCs) synthesized at a high rate by means of expandi...
The synthesis of Si nanowires was achieved via hot-wire chemical vapor deposition using an indium ca...
Dendritic morphology as a defining feature for a large number of natural things like pinetrees, snow...
We investigated the effect of the deposition rate on the surface morphology of Si nanowhiskers (NW) ...