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Material Sciences and Analytical facilities

All-Russian Research Institute for Optical and Physical Measurements” (VNIIOFI )

Central Federal District, Moscow

The unique research facility for precision measurements of radiometric and spectroradiometric characteristics of sources and detectors of radiation in the spectral range from 1 nm to 20 microns

The unique research facility is a single set of high-precision equipment, including the unique set of precision high-temperature blackbodies with fixed temperatures based on phase transitions of the metal-carbon eutectic alloys of Re-C, TiC-C, ZrC-C, HfC-C, developed and manufactured at VNIIOFI, as well as the unique absolute cryogenic radiometer. The unique research facility is designed for high-accuracy measurements of photometric, radiometric and spectroradiometric characteristics of sources and detectors in a wide spectral and temperature range (up to 3500 K). These types of measurements are mostly in demand in such fields as:

-development of space technology;

-collecting meteorological information, high-quality weather forecasting and monitoring of dangerous meteorological phenomena;

-development of new energy-saving light sources;

-fundamental and applied research in various fields of astrophysics, geophysics, medicine, metallurgy, chemistry and engineering




Shubnikov Institute of crystallography Russian Academy of Sciences

Central Federal District, Moscow

Shared Research Center of IC RAS “Structural diagnostic of materials”

Fundamental and applied researches, including innovative in a field of structural diagnostic of different materials, including nanocrystals, biocrystals and thin films using electron microscopy, x-ray, optical, and other analysis methods.

Grigoriev Yuriy


All-Russian Research Institute for Optical and Physical Measurements” (VNIIOFI )

Central Federal District, Moscow

Center for collective use of high precision methods and means of Optical and Physical Measurements

Engineering, Physics, Biology, Chemistry

Krutikov Vladimir Nikolaevich


Moscow State University of Technology «STANKIN»

Central Federal District, Moscow

Center for collective use of scientific equipment

«State Engineering Center MSTU «STANKIN»

- technologies of magnetron, ion-plasma, laser evaporation of a wide range of coatings with nanodimensional and nanocomposite structure with radically new properties;

- methods of material and coating research through probe microscopy, optical spectroscopy, mass spectrometry, etc.;

- control and measuring systems constructed on interferometry principles and measurement assurance;

- additive technologies for layer-by-layer synthesis of products from various powder materials with use of laser and cathode beam;

- technologies of fast detail production from plastic (prototyping);

- technologies of high-speed microprocessing and multiaxial mechanical processing;

- technologies of plastic deformation and material cutting;

- technologies of hydroabrasive treatment;

- technologies of automated and unattended machine manufacturing;

- mechatronic unit and digital actuator design.

Volosova Marina


State Research and Design Institute of Rare Metals Industry "Giredmet"

Central Federal District, Moscow

Center of Multiple Access to Scientific Equipment- Testing Analytical Certification Center of Giredmet

  • Implementation of research, methodical and innovative projects related to the analytical control of inorganic substances and materials (semiconductor materials , alloys, and compounds based on rare ferrous and precious metals , high-purity inorganic substances and materials on their basis) using contemporary methods and instruments, including optical emission, atomic absorption and x-ray spectroscopy , mass spectrometry with inductively coupled plasma, spark source mass spectrometry; optical microscopy , transmission electron microscopy, scanning electron microscopy; diffraction; gas analysis; including the study of the physical properties, structure , electronic structure and local composition

  • Implementation of non-routine and highly complicated analyzes ;

  • Research and development of analytical methods and procedures, national standards, reference materials, measurement chains;

  • External expertise, commissioned by the research organizations of different pattern of ownership , academic institutions , large and small industrial enterprises

  • Certification of production for export;

  • Strengthening collaboration with Russian industry - provide guidance and consulting to the industrial laboratories

  • Active cooperation with universities, institutes of Russian Academy of Sciences, branch institutes

  • Widening of use of unique and expensive analytical equipment

Karpov Yuriy


Technological Institute for Superhard and Novel Carbon Materials

Central Federal District, Moscow

Use Equipment Center “Research of Nanostructured, Carbon and Superhard Materials”

Applied and fundamental research is focused on superhard and carbon materials, including nanostructured materials. SUEC combines the resources of the Department of Structural Studies, Department of Physical Properties Studies of Nanostructures, and Department of New Superhard Materials Synthesis. SUEC houses and oversees modern scientific instruments and original devices and techniques developed by TISNCM.

Prokhorov Vyacheslav


National Research Center" Kurchatov Institute "

Central Federal District, Moscow

The Kurchatov complex for synchrotron - neutron researches

This Complex шncludes the accelerator complex of the Kurchatov synchrotron radiation source (KSRS), which consists of a linear accelerator of electrons with energy 80 MeV (forinjector), intermediate

electron storage energy 450 MeV and a large storage (the source of SR in the x-ray region), and the reactor IR-8, which has a very compact active area (size is 280x280x600 mm3) with a beryllium reflector (thickness is 300 mm) and compact biological protection, that provides a fairly high neutron flux in the active zone (1,5x 1014n/cm2s), and in the reflector (2,3x1014 n/cm2s).

These facilities are equipped with research stations where ones carry out of research on the properties of composite nanomaterials, disperse systems and organic materials, diagnostics of nano - and bio-materials, etc. using synchrotron radiation and neutrons. Production of isotopes, neutron activation analysis, radiation testing of materials and irradiated fuel compositions organized at the RR-8.

Shtrombah Yaroslav Igorevich

(499) 196 94 14

National Research Center" Kurchatov Institute "

Central Federal District, Moscow

Research complex of protective cells for material science (RCPCMS)

RCPCMS was designed for carrying out of researches in the field of radiation material science and radiation physics of solids. The uniqueness of the complex is: presence of protective equipment (protective material science camera, the so-called "hot" camera), allowing to work with radioactive materials, including high activity; presence of a wide set of research instruments and facilities, allowing to conduct comprehensive studies of crystalline, amorphous and nanocrystalline materials. The level of equipment of the complex is at the level of the best foreign "hot" laboratories, such as in Saclay and Grenoble (France), in Harwell (UK). Along with the works in the nuclear power directions the complex used effectively for new directions of work in the field of nanotechnology in the study of amorphous metals, quasicrystals, etc.

Gurovich Boris Aronovich

(499) 196 94 14

National Research University of Electronic Technology

Central Federal District, Moscow

Microsystem technology and electronic components

Main objectives of our centre are: conducting research and development, providing scientific and technical services to enterprises and organizations. Main research fields: fundamental and applied researches in the field of nano- and microsystem technology and microelectronics; development and creation of samples of microsystem technology; development and creation of microelectronic components; preparation of photomasks for the microelectronics production; design of microelectronics components and device-technological simulation; preparing highly qualified specialists; training and retraining of specialists.

Bespalov Vladimir


National Research Nuclear University MEPhI

Central Federal



Нeterostructure-based microwave electronics and physics of wide bandgap semiconductors

Branches of knowledge: condensed matter physics, physics of semiconductors, nanotechnology. Main research areas: research and development in the field of physics and technology of heterostructure-based microwave electronics (based on AIIIBV, AIIIN compounds), light emitting diodes, silicon carbide devices for power and extreme electronics. Physics and technology of nanostructures with quantum wells and dots, НЕМТ-heterostructures: molecular beam epitaxy, еlectron-beam nanolithography.

Kargin Nikolay

+7(8495)7885699, add. 8146

National University of Science and Technology "MISIS"

Central Federal



Centre for common use

«Materials Science and Metallurgy»

-materials science of nanomaterials and nanosystems;

- materials science of bulk materials and thin film structures;

- research and development of new functional materials.

Parkhomenko Yuri


Bauman Moscow State Technical University (BMSTU)

Central Federal



Education and engineering Center of Nanotechnology, nano- and microsystem technique (Center of Nanotechnology)

The Center of Nanotechnology works under educational and R&D purposes for perspective interdisciplinary directions of development of Science and Engineering. The Center possess the scientific and technological equipment installed in "Clean room" laboratory (ISO 5) and conduct the R&D for the several directions: 1. Сomplex analysis and research of materials for properties relation determination on the different scale levels (macro-micro-nano). 2. Development of scientific and technological basis of deposition of perspective functional coatings and films with given micro- and nanostructure based on impulse laser and filtered vacuum plasma deposition, including diamond-like carbon, nitride ceramic coatings. Technology and equipment development. 3. Development of composites (bulk, coating and film) with given properties of EMI reflection and absorption in wide frequency range (optical and radiofrequency). 4. Development and research perspective thermoelectric devices for industry application. 5. Development technological machine based on electron-ion beam methods for materials treatment, including powders, for high technological industry. 6. Research of failure kinetic process of space devices because of the degradation optical properties of optical systems. 7. Research of the perspective semiconductor and polymer nanolayered heterstructures for radioelectronic systems.

Bashkov Valery


Peoples Friendship University of Russia

Central Federal District, Moscow

Shared Research and Education Center of Peoples Friendship University of Russia

Chemistry, biology, ecology, biotechnology, medicine, pharmacy, agricultural science, environmental protection:

  • Development of technology and formulations, including innovative dosage forms, development and examination of technological regulation documents of drugs production;

  • Researches in the field of studying the structure and properties of complex mixtures, standardization, quality control of raw materials and products, including NMR and MS based methods; examination of quality standards on the active pharmaceutical substances, standard samples and medicines; development and validation of analytical protocols;

  • Transfer of technologies, techniques and recommendations for the analysis of substances and materials, expert work in the main areas of activity; scaling and implementation of processes in the manufacture of pharmaceuticals;

  • Clinical and diagnostic tests;

  • General toxicity study for various routs of administration and local irritating action; preclinical study of the bioavailability of generic drugs;

  • Pharmacokinetic study of original drugs;

  • Bioequivalence study of generic drugs;

  • Expert work in the field of pharmaceutical quality control of medicines in accordance with the accreditation certificate of the Federal Agency for Technical Regulation and Metrology;

  • Development and implementation of innovative educational programs for training specialists in the framework of the additional professional education.

Abramovich Rimma

+7(495)7873803 add. 2093

Stoletovs Vladimir State University, Vladimir, Russia

Central Federal District, Vladimir

Inter-regional Multidisciplinary and Interdisciplinary Center for collective use of promising and competitive technologies in the areas of development and application in industrial/ mechanical engineering based on national achievements in the field of nanotechnology and nanofemtophotonics.


Structural nanomaterials and surface treatment of products

  • Nanostructured coatings and films, membrane technology

  • Mechanical engineering, Mechatronics and Industrial measuring means in the nanometer range for positioning of the tool

  • Nanoelectronics and femtonanophotonics

  • Nanometrology and micro- nanosystems engineering

  • Nano- biotechnology, nanosecurity and environmental safety

  • Vibration-absorbing nanopolymers for Hi-Tech, including aerospace complex

  • Nanostructures to protect the military units and aerospace complex from intensive external action/radiation.

Support processes: to use, first, the unique technology of laser heat strengthened by an automated robotic multichannel laser unit with control of the process in a real time scale; second, additive technologies in the whole process chain from the creation of the master forms (prototypes in polymer and plastic base) to the final product (from metal powder of different composition); thirdly, magnetron deposition of multilayer nanoscale coatings of different materials for surface hardening of critical items in machine engineering; fourthly, the monitoring of some technological processes in a real time scale and with a subsequent both diagnosis (x-ray diffraction measurements, electron microscopy, scanning probe microscopy) and testing for the required functional and structural characteristics with the possibility of improvement with targeted modifications implemented process based on the results of testing; fifth, – unique laser equipment for various technological and manufacturing operations including the large-sized objects for industry. Training/professional development for business-partners in all of these competencies.

Arakelian Sergei


Tver State Technical University

Central Federal District, Tver

Institute of Nano- and Biotechnologies

Institute of Nano- and Biotechnologies (the center for collective use) is the largest innovation unit in the District was founded in 2007 on the basis of the Tver State Technical University.

The structure of the Institute consists of 50 specialists, including doctors and candidates of sciences, having recognized scientific works.

The main scientific directions of the Institute of Nano- and Biotechnologies is the research in the field of chemistry (including nanomaterials chemistry), chemical technology and biotechnology, environment, energy, research in the field of the analysis of health and health care.

The list of services for communities, provided the Institute:

The study of the infrared spectra of fine chemicals;

- The separation of organic compounds on the individual components;

- Analysis of the calorific value of solid, gaseous and liquid fuels;

- Analysis of the specific heat of solid samples;

- Study of the processes of thermal decomposition of organic media;

- Study of the processes of organic synthesis at elevated temperatures and pressures;

- Qualitative and quantitative analysis of the organic matter;

- Mineralization of solid and liquid samples;

- Physicochemical studies of the composition of samples of aluminosilicate materials of natural origin;

- Quantification of the total content of chemical elements;

- Analysis of the specific surface area and porosity of solid samples;

- Qualitative and quantitative analysis of the surface of solid samples;

- The study of the amino acid composition of the biocatalytic conversion of vegetables, raw materials and organic waste;

- Analysis of hydrocarbon components in the gas-air mixture;

- Analysis of the dimensional characteristics of the catalytically active transition metal nanoparticles.

Sulman Esfir

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