Add to ORKGThis study demonstrates a fast one-step synthesis method for nanostructured carbon microparticles on graphite samples using high-flux plasma exposure. These structures are considered as potential candidates for energy applications such as Li-ion batteries and supercapacitors. The samples were exposed to plasmas in the linear plasma generator Pilot-PSI with an average hydrogen ion-flux of ∼1024 m−2s−1. The parameter window was mapped by varying the ion energy and flux, and surface temperature. The particle growth depended mainly on the sample gross-erosion and the resulting hydrocarbon concentration in the plasma. A minimum concentration was necessary to initiate particle formation. The surface of the sample was covered with micropa...
We report the preparation of graphite and carbon-metal clusters by high-current pulsed arc evaporati...
Non-thermal plasma is a promising technology for high purity nanomaterial synthesis in a fast, flexi...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
This study demonstrates a fast one-step synthesis method for nanostructured carbon microparticles on...
Fine-grain graphite samples were exposed to high density low temperature (n(e) similar to 10(20)m(-3...
Fine-grain graphite samples were exposed to high density low temperature ( n e ∼ 10 20 m − 3 , T e...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
Purpose: The application of a common magnetron discharge to the growth of carbon nanostructures is s...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
Crumpled sheetlike carbons (SLCs) of a quasi-2-D graphite structure are continuously synthesized by ...
Graphitic carbon nanoparticles are in high demand for sensing, health care, and manufacturing indust...
The aim of this paper is to investigate the process of growth of different carbon deposits in low-cu...
International audiencePlasma processes, mostly involving so-called "thermal" plasmas, have been expl...
This work deals with carbon nanoparticles synthesis by a gas phase non-equilibrium plasma process.Fi...
We report the preparation of graphite and carbon-metal clusters by high-current pulsed arc evaporati...
Non-thermal plasma is a promising technology for high purity nanomaterial synthesis in a fast, flexi...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
This study demonstrates a fast one-step synthesis method for nanostructured carbon microparticles on...
Fine-grain graphite samples were exposed to high density low temperature (n(e) similar to 10(20)m(-3...
Fine-grain graphite samples were exposed to high density low temperature ( n e ∼ 10 20 m − 3 , T e...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
Purpose: The application of a common magnetron discharge to the growth of carbon nanostructures is s...
We have investigated the formation of various carbon nanostructures using extreme plasma fluxes up t...
Crumpled sheetlike carbons (SLCs) of a quasi-2-D graphite structure are continuously synthesized by ...
Graphitic carbon nanoparticles are in high demand for sensing, health care, and manufacturing indust...
The aim of this paper is to investigate the process of growth of different carbon deposits in low-cu...
International audiencePlasma processes, mostly involving so-called "thermal" plasmas, have been expl...
This work deals with carbon nanoparticles synthesis by a gas phase non-equilibrium plasma process.Fi...
We report the preparation of graphite and carbon-metal clusters by high-current pulsed arc evaporati...
Non-thermal plasma is a promising technology for high purity nanomaterial synthesis in a fast, flexi...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...