Add to ORKGA review is provided covering metal plasma production, the energetic condensation of metal plasmas, and the formation of nanostructures using such plasmas. Plasma production techniques include pulsed laser ablation, filtered cathodic arcs, and various forms of ionized physical vapor deposition, namely magnetron sputtering with ionization of sputtered atoms in radio frequency discharges, self-sputtering, and high power impulse magnetron sputtering. The discussion of energetic condensation focuses on the control of kinetic energy by biasing and also includes considerations of the potential energy and the processes occurring at subplantation and implantation. In the final section on nanostructures, two different approaches are discussed...
When a metal is added to a layer of diamond-like carbon (DLC), the resulting particle size of the me...
Plasma technologies play an important role in the manufacturing and treatment of materials. Beside ...
This work reports on the production of alloy Ti-Cu nanoclusters by magnetron sputtering and plasma-g...
A review is provided covering metal plasma production, theenergetic condensation of metal plasmas, a...
Metal plasmas play a special role in the formation of coatings because metal ions are condensable (f...
A review is presented on pulsed metal plasmas used for surface engineering and thin film deposition....
Plasma is a unique medium for chemical reactions and materials preparations, which also finds its ap...
Plasma-aided nanofabrication is a rapidly expanding area of research spanning disciplines ranging fr...
Nanomaterials are important tools for enabling technological progress as they can provide dramatical...
The field of nanoparticle preparation is nowadays rapidly evolving. Most of the ap- proaches can be ...
Over the past few decades, the research field of nanomaterials (NMs) has developed rapidly because o...
Pulsed plasma processes open up the possibility of using very high plasma densities and modulated de...
A novel dual-plasma process for the synthesis of organic layer-coated metal nanoparticles is present...
In this work, a process which allows the production of nanoparticles in a vacuum environment is desc...
In this work, the synthesis of Pt and Ag nanoparticles by means of the inert gas phase condensation ...
When a metal is added to a layer of diamond-like carbon (DLC), the resulting particle size of the me...
Plasma technologies play an important role in the manufacturing and treatment of materials. Beside ...
This work reports on the production of alloy Ti-Cu nanoclusters by magnetron sputtering and plasma-g...
A review is provided covering metal plasma production, theenergetic condensation of metal plasmas, a...
Metal plasmas play a special role in the formation of coatings because metal ions are condensable (f...
A review is presented on pulsed metal plasmas used for surface engineering and thin film deposition....
Plasma is a unique medium for chemical reactions and materials preparations, which also finds its ap...
Plasma-aided nanofabrication is a rapidly expanding area of research spanning disciplines ranging fr...
Nanomaterials are important tools for enabling technological progress as they can provide dramatical...
The field of nanoparticle preparation is nowadays rapidly evolving. Most of the ap- proaches can be ...
Over the past few decades, the research field of nanomaterials (NMs) has developed rapidly because o...
Pulsed plasma processes open up the possibility of using very high plasma densities and modulated de...
A novel dual-plasma process for the synthesis of organic layer-coated metal nanoparticles is present...
In this work, a process which allows the production of nanoparticles in a vacuum environment is desc...
In this work, the synthesis of Pt and Ag nanoparticles by means of the inert gas phase condensation ...
When a metal is added to a layer of diamond-like carbon (DLC), the resulting particle size of the me...
Plasma technologies play an important role in the manufacturing and treatment of materials. Beside ...
This work reports on the production of alloy Ti-Cu nanoclusters by magnetron sputtering and plasma-g...