Add to ORKGIn this work, we address the issue of controlled modification of the surface topography of carbon materials when subjected to oxygen-based plasma treatment, and we investigate the resulting enhanced surface area as a mean of controlling the capacitance of supercapacitors. It is shown that carbon layers with porous of controllable nanoscale size can be tuned from nanoporous to mesh-like employing atmospheric plasma torch deposition technology and following appropriate plasma processing. The nanoscale carbon processing is optimized to form surface topographies that promote carbon wettability with electrolyte. Three dimensional structures fabricated on carbon are chosen as appropriate surfaces for the enhancement of the capacitance of super...
The purpose of this research is focused on the surface modification of carbon electrodes using plasm...
The paper describes the electrochemical behavior of supercapacitor electrodes in both positive and n...
Carbon micro- and nanoelectrodes fabricated by carbon microelectromechanical systems (carbon MEMS) a...
In this work, we address the issue of controlled modification of the surface topography of carbon ma...
In this work, we address the issue of controlled modification of the surface topography of carbon ma...
Capacity of electrochemical supercapacitors strongly depends on the specific surface area of electro...
We developed patternable nanoporous carbon microstructures fabricated using simple O2 plasma etching...
Within the different available electrochemical energy storage systems, supercapacitors stand out due...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon supercapacitors, which are energy storage devices that use ion adsorption on the surface of h...
Energy storage is critical for future sustainable energy infrastructure. Among energy storage option...
The purpose of this research is focused on the surface modification of carbon electrodes using plasm...
The paper describes the electrochemical behavior of supercapacitor electrodes in both positive and n...
Carbon micro- and nanoelectrodes fabricated by carbon microelectromechanical systems (carbon MEMS) a...
In this work, we address the issue of controlled modification of the surface topography of carbon ma...
In this work, we address the issue of controlled modification of the surface topography of carbon ma...
Capacity of electrochemical supercapacitors strongly depends on the specific surface area of electro...
We developed patternable nanoporous carbon microstructures fabricated using simple O2 plasma etching...
Within the different available electrochemical energy storage systems, supercapacitors stand out due...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon, one of the most abundant materials, is very attractive for many applications because it exis...
Carbon supercapacitors, which are energy storage devices that use ion adsorption on the surface of h...
Energy storage is critical for future sustainable energy infrastructure. Among energy storage option...
The purpose of this research is focused on the surface modification of carbon electrodes using plasm...
The paper describes the electrochemical behavior of supercapacitor electrodes in both positive and n...
Carbon micro- and nanoelectrodes fabricated by carbon microelectromechanical systems (carbon MEMS) a...