One of the main directions of the development of the scientific and educational industry in Russia is to achieve maximum technological independence in key areas of the economy in a short time, primarily, such as microelectronics. Russian universities and their strategic partners actively participate in this program. “We are talking about the development of the […]


On a working visit the JSC SPE Radiy was visited by the acting rector of KBSU, Professor Yuri Altudov

The issue of creating a modern joint physico-chemical cluster for research and development work was discussed at the meeting. The laboratory will be opened on the territory of KBSU. It will be based on the high-tech equipment of JSC NPP Radium. At the first stage, the JSC SPE Radiy’s specialists will assist in the installation […]


“SPE “Radiy” successfully implements a product diversification program

In accordance with the List of Instructions of the President of the Russian Federation dated November 21, 2018 on the issue of diversifying the military-industrial complex, JSC NPP Radiy is actively implementing a development strategy, the main goals of which are the development and implementation of specific high-tech and innovative solutions related to the production of civilian products and dual destination


“SPE “Radiy” and Moscow State University strategic cooperation

Since 2018 JSC NPP Radiy and Moscow State University. M.V. Lomonosov Moscow State University (Chemistry Faculty of Moscow State University) are actively cooperating in the field of science, education and training under the signed Agreement on Strategic Cooperation and Interaction of December 2018. The parties jointly develop and conduct the most relevant scientific research…


Scientific and Technical cooperation with the Russian Academy of Sciences

In 2020, JSC NPP Radiy and the Russian Academy of Sciences signed a Cooperation Agreement and a Service Agreement for joint scientific, technical, innovation, information, analytical and expert activities. Fruitful interaction with scientists and experts of the Russian Academy of Sciences within the framework of the agreement concluded with it allows the promotion of new environmental


Main directions

Ecology and nature management

Innovative methods of preparation, storage, transportation of drinking water and green technologies of electrodialysis of water

An environmentally safe system of intensive agriculture based on the large-scale application of the ACM organomineral complex, aimed at restoring the fertility of depleted and acidic soils

Creation of a food product line with preset parameters based on the mechanism of macro and microelement transfer in the “ACM-soil-plant-food” biosystem

Carbon neutrality

Technologies for improving the carbon sequestering ability of the “ACM-soil” biosystem

Environmentally friendly technologies for the production of “green” hydrogen

Structural materials for hydrogen energy

Technologies for safe storage and transportation of hydrogen

Rare metals

World-class technologies for the efficient extraction of lithium from various hydro-mineral sources

Research and development of effective methods for the enrichment of current and stale tailings of non-ferrous, noble and rare metal ores, as well as technologies for their extraction

Antiseptic preparations based on laurel extract and other essential oils

Artificial therapeutic mud and concentrate for mud baths using the organic-mineral complex ACM, natural polyminerals and essential oils

Technology for the production of magnesium citrate and derivatives based on it from serpentinite

Medicine and health

Development and creation of a new generation radiotherapy apparatus for brachytherapy

Development of biocompatible materials and implants based on them for reconstructive and plastic surgery

Antiseptic preparations based on laurel extract and other essential oils

Artificial therapeutic mud and concentrate for mud baths using the organomineral complex ACM, natural polymerals and essential oils

Dual purpose developments

Receiving and transmitting modules of onboard radar systems

Vacuum microelectronics based on auto-emission cathodes

Electron-optical systems based on auto-emission cathodes

Aerogels based on graphene and carbon nanotubes

Scientific partners