Russian scientists put a step forward to the solidarity of electricity, this is their age-old discovery.

Scientists from Siberia's Federal University and the Federal Research Centre at the Siberian Crannoyarsk Scientific Centre of the Russian Academy of Sciences have been synthetizing the CO nano-partics that can form the foundation for super-surface room temperature materials, the “reported. Sputnik International” Transmission Periscope.

An article on the study of the magnetic properties of these particles was published in the September issue of “Journal of Superproduction” and “Novel Magneism”.

The most important feature of the material used for electrical networks is its electricity.

Each material possesses resistance, or the ability to distribute and slow electrons whose movement is called electric power.

In 1911, however, a supersect was found to demonstrate zero resistance if it cooled to 4K. Scientists continued their search and found numerous materials of this type. But their practical application was impossible because of the need to keep low temperatures (from -273.14 ° C to -253.15 ° C).

A breakthrough in the field of supersurfence was the discovery of materials showing zero resistance at higher temperatures (-196 ° C and higher). Scientists have found that high - temperature superdispossors (from 0 ° C) can be used for a new generation of electrical networks with potentially greater capacity. Training with high-speed magnetic pillows using superdispossors are also being investigated.

Three years ago researchers at Siberia's Federal University and the Federal Research Center at the Crannoyarrsk Branch Science Centre of the Russian Academy of Sciences synthesized the CO2 nanoseconds for possible use in superlinela. To produce nanoopoederssa (pukules made up of measured particles of several dozen nanometers), researchers used direct plasma synthesis that puts films into a vacuum through the discharge of plasma.

In nature, there is a compound of CuO, but adding an atom of oxygen provides magnetic properties of nanopartiates within a certain magnetic field of the field (over 3 kO). These traits are the characteristics of supersonics. Researchers say that if dust particles can be united into a single material, it will likely behave like a supersect at room temperature or even higher - something that can revolutionize energy networks.

The US, Japan, China and the EU are actively conducting fundamental and applied research on the parts that are already being carried on the basis of high-fever supercommers. But despite considerable progress in their creation, results must still be implemented in practice.

All that remains to be done is to bring together the CuO powder nanopartics. That means we've developed a new super-servative capable of operating at room temperature.

It is very realistic to reduce the costs of material production, increase credibility and service life, and create energy systems with new quality characteristics acceptable to the energy industry in the 21st century”, said Anatoly Leweightev, head of the Centre for Exploration and the U.S. Center for New Materials and Technology Education. NESTO at Siberia Federal University.

Leqeev noted that “super-species are friendly with the” environment, given low capital costs in mass production.

The current density and specific capacity, as well as the typical special physical properties of super-compliances, enable the development of highly efficient electrical equipment”, Leweightev noted./Periscopi/