Add to ORKGWe have investigated the formation of various carbon nanostructures using extreme plasma fluxes up to four orders of magnitude larger than in conventional plasma-enhanced chemical vapor deposition processing. Carbon nanowalls, multi-wall nanotubes, spherical nanoparticles and nanotips are among the structures detected with electron microscopy methods. Precursor injection or surface pretreatment were not required for the synthesis of the nanostructures. Preliminary experiments with varied plasma composition, sample bias and surface temperature have demonstrated the potential for optimizing the growth of the nanostructures in the current experimental set-up.</p
In this project fundamental issues related to synthesis of single wall carbon nanotubes (SWNTs), whi...
Fine-grain graphite samples were exposed to high density low temperature ( n e ∼ 10 20 m − 3 , T e...
This work was dedicated to the plasma-enhanced chemical vapor deposition (PECVD) synthesis of carbon...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
This study demonstrates a fast one-step synthesis method for nanostructured carbon microparticles on...
Carbon nanostructures present leading field in nanotechnology research. Wide range of chemical and p...
Thermal plasma processes show certain advantages over conventional gas phase synthesis process for t...
International audienceThe production of carbon nanostructures at very high temperature by thermal pl...
International audienceA mixture of acetylene, hydrogen and ammonia (C2H2/H2/NH3) is used to produce ...
Plasma-based techniques offer many unique possibilities for the synthesis of various nanostructures ...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
The main objective of this thesis is to find optimum discharge conditions in plasma reactors to real...
The results of a hybrid numerical simulation of the growth kinetics of carbon nanowall-like nanostru...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
In this project fundamental issues related to synthesis of single wall carbon nanotubes (SWNTs), whi...
Fine-grain graphite samples were exposed to high density low temperature ( n e ∼ 10 20 m − 3 , T e...
This work was dedicated to the plasma-enhanced chemical vapor deposition (PECVD) synthesis of carbon...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
This study demonstrates a fast one-step synthesis method for nanostructured carbon microparticles on...
Carbon nanostructures present leading field in nanotechnology research. Wide range of chemical and p...
Thermal plasma processes show certain advantages over conventional gas phase synthesis process for t...
International audienceThe production of carbon nanostructures at very high temperature by thermal pl...
International audienceA mixture of acetylene, hydrogen and ammonia (C2H2/H2/NH3) is used to produce ...
Plasma-based techniques offer many unique possibilities for the synthesis of various nanostructures ...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
The main objective of this thesis is to find optimum discharge conditions in plasma reactors to real...
The results of a hybrid numerical simulation of the growth kinetics of carbon nanowall-like nanostru...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
In this project fundamental issues related to synthesis of single wall carbon nanotubes (SWNTs), whi...
Fine-grain graphite samples were exposed to high density low temperature ( n e ∼ 10 20 m − 3 , T e...
This work was dedicated to the plasma-enhanced chemical vapor deposition (PECVD) synthesis of carbon...