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P.G. Demidov Yaroslavl State University

Central Federal District,


Diagnostics of Micro- and Nanostructures

Comprehensive research in the field of micro- and nanoelectronics. Development of physical, technological and metrological bases for the creation of the crucial elements of structures for integrated nanoelectronic devices. Diagnostics methods for micro- and nanostructures electronics, nanomaterials, biological nano-objects. Development of nanocomposite and nanostructured materials for solar energy and chemical power sources.

Orlikovsky Alexandr


Belgorod State National Research University

Central Federal District, Belgorod

Center for shared use of research equipment "Diagnosing the structure and properties of nanomaterials"

Main lines of activity

The Centre provides its equipment for supporting research conducted by enterprises which carry out projects under federal target programs, and also to other organizations which use scientific equipment, allowing to employ modern methods of material physics.

The Centre also provides its equipment for training staff for working with state-of-art scientific equipment,

The Centre organizes and hosts research-and-technology conferences.

List of services provided

  • Mechanical testing of metals and alloys,

  • Analytical control of element composition and chemical makeup,

  • Studying phase composition and crystal structure features,

  • Defining nano-particles’ geometric size,

  • Training staff for working with scientific equipment,

  • Elaborating procedures of measurements of parameters for nano-industry production.

  • Primary research areas

  • Complex studies of the composition, structure and properties of nanostructured bulk materials for medical and technical purposes.

  • Development of the technological foundations of obtaining by solvotermal and sol-gel methods of nanosized metal powders, metal oxides and semiconductors with reproducible properties, and their complex investigation.

  • Development of the compaction methods of nanosized powders using the cold isostatic pressing.

  • Preparation, analysis of the structure and dielectric spectroscopy of lead-free relaxor ferroelectrics.

  • Zirconia-based ceramic materials for dentistry.

  • Bulk thermoelectric nanocomposites.

  • Hardening and wear-resistant coatings.

  • Mechanical testing, analytical testing of materials and determining the geometric characteristics of nanomaterials in accredited JRC of NRU "BelSU ".

Ivanov Oleg


Southern Federal University

Southern Federal District, Rostov-on-Don

CUC «Molecular Spectroscopy»

Fundamental and applied research on objects of ecological interest and newly synthesized compounds through modern physicochemical methods: chemical structure identification of complex synthetic and natural organic compound mixtures. Structural mechanism investigation of photoinitiated processes in organic molecular systems. Investigation of electronic excitation energy Deactivation mechanisms in organic molecular systems. Spectroscopy andexcited state reaction dynamics. Regularities detection determining relations between molecular structure and competitive photoinitiated process mechanisms of photochemical/physicalelectronic excitation energy deactivation in organic molecular systems. Kinetics and thermodynamics analysis in ground and exited state of photochromic elements. Organic and bioorganic coordination systems study implying molecular switch and magnetoactive complex compounds for molecular magnets. Spatial and electronic structure of compounds and clusters functioning as new structural motifs for a changing design of new polymeric and 3D crystal formation. Computer modelling of photochromic molecular and nanomolecular systems transformation, aimed at determining bistable structures for 3D molecular memory as well as energy and chemical sensors transformation systems.

Borodkin Gennadiy


Southern Federal University

Southern Federal District, Rostov-on-Don

CUC «Nanotechnologies

Nanotechnologies and nanomaterials. Mechanotronics and Microsystem device technologie. New and renewable energy sources technologies. Crystalline materials producing and manufacturing technologies. Chemosensors. Biosensors. Cell technology. Genomics. Biomedicine. Regenerative medicine. Medical genetics.

Polyakov Vadim Vitalievich


Southern Federal University

Southern Federal District, Rostov-on-Don

CUC «High Technology»

Nanotechnologies and nanomaterials. Mechanotronics and Microsystem device technologie. New and renewable energy sources technologies. Crystalline materials producing and manufacturing technologies. Chemosensors. Biosensors. Cell technology. Genomics. Biomedicine. Regenerative medicine. Medical genetics.

Olishevsky Daniil Petrovich


Saint Petersburg State University

North-Western Federal District, St. Petersburg

Research Park SPbU

Nanotechnology and Materials Science

Biomedicine and Human Health

lnformation Systems and Technology

Ecology and Nature Management

Mikushev Sergey


National mineral resources university (University of Mines)

North-Western Federal District, St. Petersburg

Center for collective use of analytical research of Districtal mineral complex issues

Analytical studies and scientific support of environmentally friendly exploration, extraction and processing of minerals deposits.
The equipment includes a set of sample preparation line, the line of electron microscopes JEM-2100, JSM-6460, JSM-7001F, JIB-4500, JSPM-5400) of the company Jeol, X-ray, X-ray fluorescence, atomic absorption spectrometers and optical (ED-2000, XRF-1800 , Niton XLT Series 500), X-ray powder diffractometer (XRD-6000, XRD-7000) with high temperature chamber and the laser analyzer (Horiba LB-550).
Equipment set with hardware and software for environmental studies includes appliances, analyzers, satellite and unmanned vehicles and lidar system (VW CRAFTER).

Center for collective use allows solving the problem of environmentally friendly sustainable development of mineral resources.

Pashkevich Maria


Ioffe Institute

North-Western Federal District, St. Petersburg

Joint Research Centre «Material science and characterization in advanced technology

On the equipment of the Joint Research Centre (JRS) «Material science and characterization in advanced technology» researches and development of the physical principles and technical solutions of effective and safe hybrid nuclear power which will give the chance cardinally to improve safety and efficiency of nuclear power at the expense of accelerated introduction in it thermonuclear technologies are conducted. It is reached by creation of hybrid fusion-fission reactors which nuclear cover (a blanket – a multiplier of neutrons) works in the subcritical mode. Now the level of development of thermonuclear technologies allows to carry out transition to a stage of demonstration of engineering technological capabilities. During the conducted researches the foundation for a successful solution of the problem of development of hybrid fusion-fission reactors will be laid.

On the equipment of JRS the following tasks can be implemented:

1. Research and development of effective schemes of noninductive current drive in a compact tokamak - a prototype of the generator of neutrons:

• numeric simulations and experimental research of radio-frequency noninductive current drive in a compact tokamak with high efficiency;

• numeric simulations and experimental research of the boot-strap current ;

• nutral beam current drive optimization.

2. Development of auxiliary heating methods of plasmas in tokamak up to the subthermonuclear temperatures providing conditions for effective generation of beam-plasma fusion neutrons:

• plasma equilibrium and confinement in conditions with high anisotropy of pressure;

• improvement of plasma confinement due to suppression of anomalous transport and formation of transport barriers;

• plasma auxiliary heating technologies compatible to technologies of continuous maintenance of current;

• diagnostics of high-temperature plasma.

3. Development of technology of exhaust of products of thermonuclear burning via special divertor interfaces:

• numerical and experimental modeling of the modes of nuclear fusion with the minimum density of the power postponed for the divertor plates;

• technical solutions for divertor unit, research and development for the materials of the first wall of a compact tokamak providing a stationary operating mode resistant to radiation from plasma, neutrons and possessing sufficient transparency for a neutron flux and the minimum induced activity;

• on-line and post-mortem diagnostics of materials of the first wall irradiated by fluxes of plasma and high energy particles;

• research of change of structure of the materials under the influence of heavy-duty plasma fluxes at the experimental facility.

4. In JRS it is created and the diagnostic complex of the modern analytical equipment which provides quantitative and exact information on element, chemical, phase composition, parameters of a real crystal lattice and electronic structure, type and concentration of defects, optical, electrophysical, geometrical and other parameters and characteristics of solid-state materials and structures.

Konnikov Samuel


Immanuel Kant Baltic Federal University

North-Western Federal District, St. Petersburg

Science and Technology Park "Factory"

- Creating a focus X-ray devices. A coating device for focusing x-rays. Testing of components and devices for synchrotron sources. Creating a synchrotron laboratory.

- Design and creation of functional bioactive surfaces for applications in medical diagnostics. Creating nanoscale silver coatings for surgical dressings. Generation and analysis of functional nanostructures composite oxide of titanium and calcium hydroxyapatite and their use in implantology. Development of bases of technology of formation of implantable structures of nano-modified materials.

- Research and synthesis of functional testing of polycrystalline oxides and their use as a tunnel insulator in crystalline thin-film structures of magnetic tunnel junctions. Formation and research of nanocomposite structures SiO2: ME segregation by oxidation of silicon metal front for applications nano-flash.

- Development of methods for the creation of nanostructures for energy-saving systems of monitoring and control of technological processes and equipment and self-contained power supply.

- Design, synthesis and study:

amorphous ferromagnetic microwires and their systems

Heusler alloys

multiferroic structure

the structure of the exchange bias

alloys with a giant magnetocaloric effect

- Magneto magnetic and plasmonic structures

- Development of portable and efficient sources of narrowband ultraviolet fotolecheniya for skin diseases, photochemical reactors, as well as laboratory and industrial installations that require powerful ultraviolet radiation.

- Study of methods for measuring and monitoring of dynamic conditions macroscopic (cm2- m2) relating to the non-stationary oscillatory processes and changes (discontinuities, damped oscillations, surface or shock waves)

-is multifunctional optical microscopy combined with spectroscopic methods,

-technology optical control for cell Storting and measuring the degree of interaction of cells with each other,

- Holographic microscopy and holographic interference measurements for analyzing parameters of stresses, strains, fatigue of the materials used in biomedicine. analysis of the dynamic processes in the damage or bundles in such materials (materials science in biotechnology).

Gareev Timur

+7(4012)595595, add. 7708

Central Research Institute of Structural Materials «Prometey»

North-Western Federal District, St. Petersburg

Common-Use Centre of CRISM «Prometey» “Composition, Structure and Properties of Structural and Functional Materials”

Examination of composition (chemical analysis and local elemental phase composition), structure (at different scale levels), mechanical and physical properties of structural and functional materials

Petrov Sergey


Far Eastern Federal University

The Far Eastern Federal District, Vladivostok

Interdisciplinary Center of shared facilities of nanotechnology and new functional materials

Interdisciplinary Center of shared facilities of nanotechnology and new functional materials operates on the principle of sharing research equipment to provide opportunities to all structural units FEFU and third parties to carry out research work using modern equipment.

The objectives of the Interdisciplinary Center of shared facilities of nanotechnology and new functional materials include research in the framework of the priorities of the Russian Federation and the provision of services to third parties in a professional manner.

Main research fields:

  • biomedical, pharmacological, and biochemical research;

  • research into the structure and function of cells, molecular and cellular technologies;

  • Integrated basic and applied genetic research;

  • comprehensive studies of animal and plant diversity of the land and the world's oceans;

  • studies of the structure and properties of soil and marine aqua soil;

  • Environmental monitoring of the aquatic and terrestrial environments;

  • study the electronic structure of molecules and complexes by electron spectroscopy;

  • a study of the physical properties and structure of amorphous and microcrystalline alloys and rapidly quenched thin films suitable for magnetic and thermal magnetic recording media;

  • a laser-optical methods of information processing and image processing;

  • using the methods of IR, UV and optical spectroscopy, mass spectroscopy, atomic absorption spectroscopy, gas-liquid and high-performance liquid chromatography, elemental, X-ray diffraction and thermal analyzes, complex confocal techniques (laser scanning) microscopy and nuclear magnetic resonance .

Services provided by the Center:

  • A study of the elemental composition of nanostructured films

  • Measurements of coercivity magnetic films and nanostructures

  • Measurements of the magnetic anisotropy of thin films and nanostructures

  • Measurement of surface topography of nanostructured objects

  • A study of the elemental composition of nanostructured films

  • Determination of micro- and macronutrients in soils, sediments and natural waters

Sergienko Valentin


National Research Tomsk Polytechnic University

Siberian Federal District, Tomsk

«Research Nuclear Reactor» Centre

Security and counter-terrorism, in the area of the development of modern systems of physical protection of nuclear facilities;

Life sciences, in the area of research for the development of advanced radiopharmaceuticals for diagnosis and treatment of socially significant diseases, the development of technologies for the production of radionuclides for the study of biological objects at the cellular level and the development of efficient methods for radio-ecological survey of territories subjected to human impact;

Environmental management, in the area of the development of technologies of extraction and processing of rare and radioactive elements (titanium-containing raw material, quartz-bearing ores and silicates, zirconium concentrates, beryl concentrates, technology of neutron transmutation doping of monocrystalline silicon ingots);

Energy efficiency, energy conservation, nuclear power, in the area of research for the development of advanced fuel compositions, as well as the study of the properties of materials, working in extreme conditions.

Naimushin Artem


National Research Tomsk State University

Siberian Federal District, Tomsk

Tomsk Districtal common use center

Chemical materials, adsorption and catalysis, geology, geochemistry, radio physical measurements, ionospheric research, designing technological devices, high-performance computing, security nanomaterials, laser physics, ecology, genetics, microbiology

Alekseenko Kira


Rzhanov Institute of Semiconductor Physics Siberian Branch of Russian Academy of Sciences.

Siberian Federal District. Novosibirsk

Centre for collective use of the scientific equipment "Technologies of semiconductor, metallic, carbon and bio-organic materials nanostructuring and analtical methods of the nano-scale investigations"

Transmission and scanning electron microscopy investigations of the atomic structure, morphology and chemical composition of the wide class of the materials of different fields of the fundamental and applied science, including semiconductor material science, catalysis, mineralogy and biology. Efficient no-contact control of the atomic surfaces by means of scanning-probe microscopy, determination of the elemental and chemical composition of the solid-state surfaces by means of Auger electron and X-ray photoelectron spectroscopy, Secondary ion mass spectrometry. Creation of the low-dimensional arrays of the nanostructures for nanoelectronics and nanomechanics by means of optic, electron, ion and probe lithography in the field of low-dimensional systems. Centre for collective use of the scientific equipment “NANOSTRUCTURES” provides practical and advanced trainings of the Customer’s staff.

Latyshev Alexander


Novosibirsk State University

Siberian Federal District. Novosibirsk

Center for collaboration in usage of devices and equipment "High Technologies and Analytics of Nanosystems" (CCU HTAN)

CCU HTAN provides a broad instrument supporting research in various fields of physics, chemistry and biology, as well as on the structure and properties of nanomaterials. The center's equipment also ensures the implementation of a number of processes within the high technology. In accordance to the objectives of CCU HTAN it consists of two parts: the Technological department and Analytical department. Technology department is engaged in the process of synthesis of substances and materials, film deposition and its structuring, the creation of structures and models of devices. Equipment of the Technology Department: Interferometer Fizeau "Intellium Z100", laser generator microimages and microholograms, Microwave systems: Voyager SF, Explorer 48, Discover S-Class, MARS XPRESS, automated microscope interferometer MII-4M-USB, complex high-power microwave generators: a gyrotron (24 GHz), a magnetron (2.45 GHz), Experimental implanter with the energy of the particles up to 150 keV, installation of plasma chemical etching, device for deposition of diamond and nanocomposite coatings, device for electron beam lithography and reflection electron microscopy. The Analitical department conducts research and provides services to assess the composition of substances, the analysis of structures (up to nm size), the study of the optical and electrical properties of materials and devices. Equipment of the Analytical department: Scanning nanohardness, scanning optical profiler CHR-150-XY, Vacuum ellipsometer, Kvazioptics subterahertz BWT spectrometer, IR spectrometer far-infrared Bruker Vertex 80v, Raman spectrometer T64000, FT-IR spectrometer, Small-angle X-ray diffractometer S3-MICRO ( Hecus), X-ray powder diffractometer ARL X'TRA (Thermo Fisher Scientific), Scanning laser ellipsometer, Transimission electron microscope Libra 120, Measuring equipment for electronic measurement of static and high capacity characteristics Agilent, Installation meter electronics for measuring the characteristics of high-voltage, high-current devices Keithley Instruments Inc., Electronic equipment for low-voltage measurement of current-voltage characteristics of Keithley Instruments Inc ., Ultra-high vacuum scanning tunneling microscope with variable sample temperature, Transmission electron microscope with high resolution JEM-2200FS-CS (JEOL), Scanning Probe Microscope AFM / STM SOLVER NEXT, Reflection electron microscope JCM-5700 (JEOL).

Arzhannikov Andrey


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