Nanocarbon material with a unique developed with a surface structure for supercapacitors.
Developed nanocarbon material with a unique structure developed surface, having a maximum surface area per unit volume. While graphene has a two-dimensional nanostructures (2D), and nanocarbon material – three-dimensional nanostructure with a specified pore distribution (3D), providing a unique “capacity” and “compactness” of a material.
Other forms of carbon: graphene, carbyne, diamond, fullerene, carbon nanotube, “Vickery”.
Description:
Developed nanocarbon material with a unique structure developed surface, having a maximum surface area per unit volume (in professional language experts such structure is called “Vickery” or “sideburns”). While graphene has a two-dimensional nanostructures (2D), and the Russian nanocarbon material – three-dimensional nanostructure with a specified pore distribution (3D), providing a unique “capacity” and “compactness” of a material.
Nanocarbon material produced from domestic carbon materials.
According to the combined qualities of the new material competes with graphene and carbon nanotubes, while at times they are cheaper: 1 gram of graphene is more than 80,000 rubles, and the nanocarbon material with unique advanced surface – only 1 ruble and 60 kopecks.
Nanocarbon material has unique properties:
– high conductivity of current
– provides more efficient storage and accumulation of electricity
– increased specific power consumption – up to 8 Farad per square centimeter,
– able to work under critical low temperatures and high humidity over the Arctic circle, in the highlands and tropical latitudes, as well as in space.
The new technology has high prospects. It allows you to produce cheap material for supercapacitor carbon from domestic raw materials.
Advantages:
– low cost,
– has unique properties better than graphene and carbon nanotubes.
Application:
In the supercapacitors as the energy storage unit. At the same time offered a radically new ideology of design and technology of Assembly of the modules of supercapacitors using the nano-carbon material, through which the complexity of manufacturing of disk drives has been reduced almost an order of magnitude, and the cost of manufacturing the drive power for the vehicle is reduced almost 3 times.
The proposed storage of electrical energy, the supercapacitors will be successfully applied in various branches of engineering:
– environmentally friendly personal and public transport, metro,
– hoisting construction equipment,
– elevators,
– the uninterruptible power supply systems and regulation of energy quality,
– as well as pulse and medical equipment.
Such supercapacitors can operate in critical conditions of low temperature and high humidity over the Arctic circle, in the highlands and tropical latitudes, as well as in space.