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In comparison with the supercapacitors produced for the market , Ionistors ( supercapacitors ) are being developed in the project , which will allow:
- reach a specific power of over 200 kW / kg, which is more than an order of magnitude higher than this parameter of existing supercapacitors ,
- to create a unified electrical system in ceramic electrogenerating gas turbine engines through ionistors to the motor of amotor of various vehicles that allows to reconcile the uneven load in the common electric circuit and to reduce by an order the weight and size characteristics of power units in comparison with existing engines from metals in any type of vehicles,.

- The basic principles of the project are:
RF patent No. 151644, a capacitor with a double electric layer and a battery of capacitors with a double electric layer with priority from August 25, 2014, authors: Kuznetsov Victor, Lastovkin Anatoly and ancestral according to the basic principles of applied electrode nanomaterials RF patent No. 2084036, a capacitor with a double electric layer with a priority of 30.11.1995. authors: Averba R.G., Gordeev S.K., Zhukov S.G., Zelenov B.A., Kuznetsov V.P., Kukushkina Yu.A., Mazaeva T.V.,Pankina O.S., Sokolov V.,- specialists from 3 institutes of St. Petersburg: TsNIIM, Research Institute " Girikond» and GIPH.

These patents, shared by two decades, unite the continuous improvement of the properties and synthesis of the electrodenanoporous carbon material.

Nevertheless, in the project, efforts have been made to raise the properties of the electrode material and its synthesis to a higher level of perfection, which will ensure the advantage of the properties of the created ionistors (double-layer capacitors- supercapacitors ).

Some scientific works of the team:
1. Averba R, G, Gordeev S, K., Zhukov S, G., Zelenov BA, Kuznetsov VP, Kukushkina Yu.A., Mazaeva TV,Pankina OS, Sokolov V .AT. Condenser with a double electric layer. Patent of the Russian Federation No. 2084036, Prior.30.11.1995.
2. Gordeev SK, Vartanova A.V. A New Approach to the Creation of Block Microporous Carbon Materials // Journal of Applied Chemistry. 1995. T.67, No. 8, P.1375-1377.
3. Kuznetsov V.P., Kompan M.E., Kravchik A.E. Double-layer capacitors ( ionistors ) based on nanoporous carbon materials are promising energy storage devices. J. Carbon nanostructures for alternative energy and ecology., 06.02.2007.

Thus, the main goal of this project is the development of ionistors ( supercapacitors ), which will allow:
• reach a specific power of over 200 kW / kg, which is more than an order of magnitude higher than this parameter of existing supercapacitors ,
• to create a unified electrical system in ceramic electrogenerating gas turbine engines through ionistors to the motor of amotor of various vehicles that will smooth out the unevenness of the load in the common electrical circuit and reduce the weight and size characteristics of the power units by an order compared to the existing engines of metals.
The result of the project will be the creation of a company that produces innovative products: high -power ionistors with anomlakturnym next to 200W to 500 kW (for RF patents № 151644 and 2084036).

The main and mass consumers of new ionists can become producers of various transport products: hybrid and electric cars, hybridaircraft and helicopters , ships of different purposes, etc.

These results are expected to be achieved by improving carbide nanoporous carbon by removing metal atoms from carbide compounds, which opens up a new scientific direction in the synthesis of nanoporous materials directly in the desired form of products, which is usually achieved only with the help of additive technologies. At the same time, it is planned to achieve the effect not only of shaping the nanoporous carbon product, but also to transform its electrochemical characteristics. A directional change in the properties of nanoporous carbon material can be attributed to the fundamental scientific foundations of modern materials science.