Add to ORKGHigh quality silicon nanowires (SiNWs) were grown directly from n-(111) silicon single crystal substrate by using Au film as a metallic catalyst. The diameter and length of the formed nanowires are 30-60 nm and from several micrometers to sereral tens of micrometers, respectively. The effects of Au film thickness, annealing temperature, growth time and N-2 gas flow rate on the formation of the nanowires were experimentally investigated. The results confirmed that the silicon nanowires with controlled diameter, length, shape and orientation can be obtained via reasonably choosing and optimizing various technical conditions. The formation process of the silicon nanowires is analyzed qualitatively based on solid-liquid-solid growth mechanism
Amorphous silicon nanowires were prepared by heating an Si substrate at high temperatures using an N...
In spite of the fact that, a great deal of experimental research has been published, there is a lack...
[[abstract]]This study examines the usage of well-patterned Au nanoparticles (NPs) as a catalyst for...
Amorphous Si nanowires were grown on an Au-coated Si substrate by heat treatment at 1000 degreesC un...
Highly oriented amorphous silicon nanowires (a-SiNWs) were grown on Si (111). The length and diamete...
Highly oriented silicon nanowires were grown on Si (111) substrate via a solid-liquid-solid (SLS) me...
Amorphous silicon nanowires (a-SiNW's) with average diameter around 20 nm were synthesized at a...
Amorphous silicon nanowires (a-SiNW) with an average diameter of ca. 20 nm were synthesized at about...
Amorphous silicon nanowires (a-SiNW's) with average diameter around 20 nm were synthesized at a...
Silicon nanowires were synthesized on Si substrates (111) via thermal evaporation using AuPd thin la...
Silicon nanowires have been synthesized by a simple process using a suitable support containing sili...
Single-crystal silicon nanowires with the prism structures were synthesized by chemical vapor deposi...
Silicon nanowires (SiNWs) were first synthesised using Au coated p type Si (100) substrate via the s...
In this work, we investigate the growth behavior of silicon oxide nanowires via a solid-liquid-solid...
Silicon nanowires were grown on Si (111) substrates by very high frequency plasma enhanced chemical ...
Amorphous silicon nanowires were prepared by heating an Si substrate at high temperatures using an N...
In spite of the fact that, a great deal of experimental research has been published, there is a lack...
[[abstract]]This study examines the usage of well-patterned Au nanoparticles (NPs) as a catalyst for...
Amorphous Si nanowires were grown on an Au-coated Si substrate by heat treatment at 1000 degreesC un...
Highly oriented amorphous silicon nanowires (a-SiNWs) were grown on Si (111). The length and diamete...
Highly oriented silicon nanowires were grown on Si (111) substrate via a solid-liquid-solid (SLS) me...
Amorphous silicon nanowires (a-SiNW's) with average diameter around 20 nm were synthesized at a...
Amorphous silicon nanowires (a-SiNW) with an average diameter of ca. 20 nm were synthesized at about...
Amorphous silicon nanowires (a-SiNW's) with average diameter around 20 nm were synthesized at a...
Silicon nanowires were synthesized on Si substrates (111) via thermal evaporation using AuPd thin la...
Silicon nanowires have been synthesized by a simple process using a suitable support containing sili...
Single-crystal silicon nanowires with the prism structures were synthesized by chemical vapor deposi...
Silicon nanowires (SiNWs) were first synthesised using Au coated p type Si (100) substrate via the s...
In this work, we investigate the growth behavior of silicon oxide nanowires via a solid-liquid-solid...
Silicon nanowires were grown on Si (111) substrates by very high frequency plasma enhanced chemical ...
Amorphous silicon nanowires were prepared by heating an Si substrate at high temperatures using an N...
In spite of the fact that, a great deal of experimental research has been published, there is a lack...
[[abstract]]This study examines the usage of well-patterned Au nanoparticles (NPs) as a catalyst for...