NUST MISIS National Research Technological University

The National Research Technological University "MISIS," created on the basis of the Moscow Institute of Steel and Alloys, is one of the most prestigious Russian universities, training qualified specialists in the field of new materials, nanotechnology, IT, economics and business. Together with the university teachers, students are engaged in research work, participate in many international programs, are sent to study abroad, and actively communicate with foreign colleagues.

NUST "MISIS" is one of the most dynamically developing scientific and educational centers of the country. Being among the leaders of the technological, formations Russia NUST MISIS is also a full-fledged scientific center. According to the results of 2014, he entered the hundred best universities of the BRICS countries and among the best educational institutions in the world according to the main educational rating QS. The strategic goal of MISiS by 2020 is to become a global leader in the areas of specialization: materials science, metallurgy and mining, as well as to significantly strengthen its position in the field of nanotechnology, biomedicine and IT technologies.

More than 15,000 students study at NUST MISIS. World-class scientists work in laboratories and scientific and technical centers of the university. The university successfully implements joint projects with the largest Russian and foreign high-tech companies.

Aktivs

For 2016, the university includes:

• 9 institutes,
• 4 branches - three in Russia and one abroad.

Institute of Information Business Systems (IIBS) as part of NUST MISIS

The Institute of Information Business Systems (IIBS) as part of NUST MISiS is a benchmarking model of private-public partnership (ChGP) of an advanced university and business customers to solve the problems of training personnel elite specialists in the field of information systems and information technologies who are able to solve complex complex tasks for the implementation of complex information systems based on integration solutions for the largest state and business customers.

Competence Center for New Materials and Breakthrough Technologies with the support of VEB

Since September 2017, on the basis of NUST MISIS, the Competence Center for New Materials and Breakthrough Technologies with the main focus on blockchain technology, convergent and quantum technologies should open. This was announced at the end of June by Vnesheconombank (VEB), which initiates the creation of the center.

VEB notes that this is the first center of such competencies in Russia. Its main task should be the accumulation of knowledge about innovative technologies, the development of platforms for their use in government organizations, training and popularization.

On the basis of the competence center, VEB, together with partners, will develop in the field of blockchain and study the risks of using this technology "(photo source - Restate.ru)"

VEB plans to develop Russian blockchain technologies based on Ethereum and the Exonum blockchain platform created by BitFury.

One of the priority areas of work will be blockchain and the development of competencies in this area, for which we attracted world leaders - Ethereum and Bitfury, - said VEB Chairman Sergei Gorkov.

He also said that the plans include identifying potential risks of blockchain use.^[1]

Now there are a lot of stories that arise from the point of view of the ideology of blockchain. It is important for us now to understand where this moment of risk is and to work out the technology. The task of this immediate period is just that. Why do we need a centre? Because we need several technologies, several directions to place in one place, to collect developers, - quotes Gorkov portal RNS.

University structure

For 2018, the university consists of the following institutes:

• Basic Education (IBD)
• Ecotechnology and Engineering (EcoTech)
• New Materials and Nanotechnology (INMiN), former Institute of Physical and Chemical Materials
• Economics and Management of Industrial Enterprises (EUPP)
• Information Technology and ACS (ITASU)
• Information Business Systems (IIBS)
• Mining Institute, former Moscow State Mining University

The Mining Institute includes 16 departments, an evening and correspondence training center (TsVZO), centers for retraining and advanced training, advanced training of mining engineers, training and advanced training of energy auditors, strategic research, design and expert, scientific and educational testing laboratory "Physicochemistry of coal," museum named after V.V. Rzhevsky and geological im. Prof. Yershova.

The MISiS also includes the evening faculty, the faculty of distance learning and the institute of continuing education.

The Mining Institute was created on March 17, 2014 after the reorganization was completed by joining NUST MISIS of Moscow State Mining University.

History

2024

Participate in the creation of a chatbot for writing pages of memory about people

Service for saving memory in the digital environment "Memory code" in conjunction with students and graduates of some universities countries developed AI boat in. Telegram The company announced this on September 9, 2024.

Participants from NUST MISIS, Moscow State Technical University named after N.E. Bauman and Moscow State University in 3 days created a chat bot based on artificial intelligence that helps you write your own "Memory pages" on the service. Read more here.

Participation in the creation of ultra-strong materials of the future from graphene and diamond

An ultra-strong, stable and flexible composite of graphene and diamond, which can be obtained by irradiating the material with xenon ions, will help improve the quality of nanoelectronic and optical devices. MISIS announced this on August 30, 2024. The study was initiated by scientists from NUST MISIS together with IFP SB RAS and JINR. Read more here.

Participation in the study of the effectiveness of quantum computing simulation on classical computers in noise conditions

Researchers at MISIS University, the Russian Quantum Center (RCC), the Moscow Institute of Physics and Technology (MIPT) and the Mathematical Institute named after V.A. Steklova found out how to increase the efficiency of simulating quantum computing on classical computers in noise conditions. MISIS announced this on August 2, 2024. Read more here.

Opening Master's Degree "Semiconductor Energy Converters"

In NUST MISIS opens the magistracy "Semiconductor energy converters." The university announced this on June 20, 2024. Students will learn how to develop technology for zero-energy homes - buildings with high energy efficiency. Undergraduates will conduct research in the field of space photoenergy, create light-emitting diodes, nuclear solar panels particle detectors, etc. Graduates of the program will be able to build a scientific career in the field of optoelectronics or work in leading companies. power industries

source = MISIS

The role of semiconductors in advanced technologies is increasing every year. Devices based on wide-band materials are used in various fields: augmented reality, optical communication, microscopy, etc. Perovskite semiconductor materials are used in alternative power - for the production of solar panels operating in scattered light conditions.

The program is developed in accordance with the request of employers and includes two tracks. The first - "Promising semiconductor optoelectronic devices" - prepares development engineers, technologists and analysts in demand in the domestic and world markets for the production of optoelectronic devices. Students will learn how to build solar cells, detectors, LEDs and photodetectors. In the track "Semiconductor electronics based on wide-band materials," students will gain skills in developing, integrating and maintaining technological processes for the production of devices and devices based on wide-band materials - third-generation semiconductors. These technologies are used in smart home systems, the Internet of things, in space exploration, etc.

From the first year, students will be able to find a job at the enterprises of business partners of the program or in the NUST MISIS laboratory, where they will conduct scientific research under the guidance of leading scientists of the university.

Master's students will work with the most promising wide-field electronics materials - perovskites and gallium oxide. The development of electronics based on these materials began only 10 years ago and covered the whole world, and now the key moment is approaching - the transition to the industrial use of devices on these materials. As part of the Megagrants projects, we have created two world-class laboratories that are engaged in the research and development of semiconductor devices based on these materials. The best undergraduates in the process of training will have the opportunity to find a job in these laboratories, - said Sergey Didenko, Ph.D., Head of the Department of Semiconductor Electronics and Semiconductor Physics at MISIS University.

Students will be able to use computing power and modern equipment in laboratories and scientific centers of NUST MISIS and partner organizations, such as NPP Kvant, NPO Orion JSC, NIIP JSC, IPTM RAS. Classes will be held in the evening, which will allow you to combine working and educational research projects.

Graduates of the Department of Semiconductor Electronics and Semiconductor Physics, which provides training in this area, meet all our requirements, - said Dr. Konstantin Tapero, Deputy Director of the Research Institute of Instruments of Rosatom State Corporation.

Students of the program can participate in experiments as part of MegaScience projects to develop anti-radiation protection and create solar panels for the Internet of Things (IoT). Already during their studies, master's students will publish articles or theses in scientific journals and collections, and will also take part in competitions for additional scholarships or grants.

Graduates of the program will be able to work as engineers of technology companies and startups, designers of IoT infrastructure and a smart city, or continue to engage in scientific research in the field of optoelectronics.

Creation of the first master's degree in industrial quantum technologies in Russia

On June 7, 2024, the first master's degree in industrial quantum technologies in Russia was announced at NUST MISIS. The new program, developed with the support of leading commercial companies, is aimed at training specialists in the field of quantum technologies in demand in the modern market.

According to Alexey Fedorov, director of the Institute of Physics and Quantum Engineering at NITU MISIS, the Industrial Quantum Technologies program will be launched in the 2024/2025 academic year.

source = MISiS NICS

We see the need to create new educational programs within which specialists in the implementation of quantum technologies can be trained. This is a joint project with a number of industrial partners, which is especially important in the context of the "data economy," since it will not be possible to make this program without the interaction of the educational environment with customers, he stressed.

The introduction of quantum technologies into business requires the emergence of a large number of new specialists who can not only understand the work of quantum computers and other advanced technologies, but also use them to solve practical problems. According to Fedorov, cooperation with industrial partners will allow adapting the training program to the real needs of Russian business. This will give the program participants confidence in the demand for their knowledge in the labor market.

Fedorov stressed that the creation of a master's degree in industrial quantum technologies at NUST MISIS is a response to the growing needs of the market for specialists capable of introducing quantum technologies in various sectors of the economy. The program is aimed at training personnel to work in high-tech sectors, including information technology, telecommunications, finance and industry.^[2]

Russian scientists have developed a way to accelerate quantum computing

Russian scientists from MISIS University and the Russian Quantum Center have proposed their own approach to implementing a fast three-cube operation on superconducting qubits - flaxoniums. Representatives of NITU MISIS reported this to TAdviser on May 7, 2024. According to them, this method brings closer the creation of a practically useful "noisy" quantum processor and algorithms for efficient multi-cube operations. Quantum effects, in turn, are useful for studying molecules, creating drugs, effectively solving logistics problems and searching the database. Read more here.

TAdviser interview with Director of the Institute of Physics and Quantum Engineering Alexei Fedorov

Alexey Fedorov, Director of the Institute of Physics and Quantum Engineering at MISIS University, answered TAdviser's questions about what quantum technologies, computers, devices are, about achievements in this direction in Russia and the world, about personnel hunger and how to satisfy it. Read more here.

Russian scientists have proven the effectiveness of three-level quantum systems - cutrites

Scientists of the University of MISIS, the Russian Quantum Center, FIAN named after Lebedev and MIPT demonstrated the performance of three-level quantum systems - cutrites at once on two types of domestic quantum processors - superconductor and ion. With the help of cutrites, the researchers simulated a non-equilibrium phase transition of violation of parity and time symmetry. Such symmetry is broken if an isolated physical system begins to interact with the surrounding world, while losing some of its energy. This was announced on April 1, 2024 by representatives of the University of MISIS. Read more here.

Launch of Master's Degree in Industrial Quantum Technologies

Edutoria and MISIS University are launching a master's degree in industrial quantum technology. Sberbank announced this on April 4, 2024.

In the 24/25 academic year, the cooperation of the educational platform Edutoria from Sberbank with the National Research Technological University MISIS will continue and, in addition to the already open master's degree in Data Science, the master's program "Industrial Quantum Technologies" will be launched.

The program is aimed at training specialists in engineering and programming of quantum technologies and is aimed at talented graduates of physical and physical and technical faculties, as well as specialists in the field of information and communication technologies who want to develop in one of the most difficult and promising technological areas at the intersection of quantum physics, engineering and IT.

Шаблон:Quote 'author = said Svetlana Merkushina, executive director of the Sberbank Education Industry Center.

Шаблон:Quote 'author = said Andrey Voronin, Acting Vice-Rector for Education of NUST MISIS.

During the session, the speakers noted that business is building effective and profitable cooperation and dialogue with the country's universities. This partnership contributes to the creation of educational programs based on deep fundamental knowledge, academic expertise and practical skills from business partners.

Increase in budget places

In January 2024, it became known about the increase in budget places in leading technical universities in Russia, including the Moscow Institute of Physics and Technology (MIPT), Moscow State Technical University (MSTU) named after N.E. Bauman and the Moscow Institute of Steel and Alloys (MISIS). Read more here.

Refutation of the conclusion of researchers from China about the possibility of hacking quantum algorithms

A team of scientists from MISIS University, RCC and Sber conducted an in-depth analysis of the calculations used by researchers from China to simulate hacking a cryptosystem using a 400 + qubit quantum computer, and questioned their conclusion about the revolution in cryptography. Russian scientists believe that the algorithm of colleagues is not working due to "pitfalls" in the classical part and the complexity of the implementation of quantum. MISIS announced this on January 10, 2023. Read more here.

2023

Launch of the course in MTN in the direction of "Additive technologies"

The project "Moscow Technical School" ("MTSh") together with the National Research Technological University "MISIS" launched a distance course "Standardization of advanced production technologies" within the framework of the "Additive Technologies" direction. This was announced on December 14, 2023 by the Minister of the Government of Moscow, Head of the Department of Investment and Industrial Policy Vladislav Ovchinsky. Read more here.

Russian scientists have established a channel with quantum protection between Russia and China using a satellite

A team of scientists from MISIS University, the Russian Quantum Center (RCC) and KuSpace Technologies conducted a joint experiment on the transmission of messages protected by quantum cryptography between Russia and China. MISIS announced this on December 1, 2023.

To transfer the key for enciphering a distance of more than 3500 km, a unique quantum satellite communications "" Mo-tszy developed by scientists was used. PEOPLE'S REPUBLIC OF CHINA More. here

Russian scientists have become a step closer to a universal quantum computer

Russian scientists from MISIS University and the Russian Quantum Center (RCC) together with colleagues from Moscow State Technical University named after N.E. Bauman and FSUE "VNIIA named after N.L. Dukhova" proposed and demonstrated a method for implementing a fast two-cube operation on superconducting qubits-flaxoniums, which can form the basis of scalable and error-resistant quantum processors. Thus, Russian scientists have become one step closer to creating a universal quantum computer capable of solving problems in various fields, for example, for modeling molecular and chemical reactions, which will be the key to the further development of pharmaceuticals and materials science. Such information was shared with the TAdviser portal on November 27, 2023 by representatives of MISIS. Read more here.

MISIS scientists have found the optimal way to obtain a polymer with a shape memory effect

Employees of the Center for Biomedical Engineering at MISIS University conducted a series of experiments to determine how it is better to produce polymer material with shape memory effect (EPF). According to the results of studies, the polymer obtained by extrusion (drawing) returns to its original form faster than the sample produced by casting from solution. Such materials are optimal for creating stents for vessels, self-aligning and self-fixing bone implants, as well as adaptive medical devices (clips, staples, clips, etc.), MISIS representatives said on November 7, 2023 Zdrav.Expert. Read more here.

Boron nitride nanoparticles a promising basis for drug delivery to cancer tumors

Scientists at MISIS University have found that the most promising platform for drug delivery in cancer may be boron nitride (BN) nanoparticle. Studies have shown that the beneficial substance and carrier form a strong bond, thereby providing a reliable basis for improving targeted therapy systems. The university announced this on October 4, 2023. Read more here.

Scientists have proposed a universal method for recycling waste from gypsum production

An international group of scientists has proposed a comprehensive method for producing synthetic gypsum from water filtration products coming from natural sources. From the waste remaining after the production of gypsum, researchers propose to make sorbents for the removal of oil products from rivers, seas and oceans, as well as photocatalytic materials for the treatment of wastewater from dyes. Tests of the obtained materials have shown that they not only meet all the requirements for substances of this class, but can also be used as a fertilizer. MISIS announced this on August 11, 2023. Read more here.

MISIS scientists have proposed technology for obtaining nanoparticles for the treatment of cancer

Scientists at the University of Science and Technology MISIS have proposed a technology for producing nanoparticles for magnetic hyperthermia - a promising method of treating cancer, with magnetic properties controlled in a wide range. As representatives of the university shared with Zdrav.Expert on August 9, 2023, the presented method will create substances with specially selected properties for the therapy of various forms of tumors. Read more here.

A team of scientists presented the results of a test of a photosensitive substance for photodynamic cancer therapy

A team of scientists from NUST MISIS, Sechenov University and N.N. Blokhin National Medical Research Center of Oncology presented the results of testing a photosensitive substance for photodynamic therapy of cancer - a photosensitizer (PS) of bacteriochlorine. MISIS University announced this on July 18, 2023. Read more here.

NUST MISIS has created an institute for training engineers in the quantum sphere

In mid-July 2023, the National Research Technological University of MISIS (NUST MISIS) announced the creation of the Institute of Physics and Quantum Engineering, which will train quantum engineers and quantum technologists. Read more here.

Russian scientists have found an effective combination of nanoparticles against breast cancer cells

Scientists of the University of MISIS and RNIMU named after N.I. Pirogova created a combination of magnetic nanoparticles of iron oxide (III) (MCH) with redox-sensitive substances (from the English redox - REDuction-OXidation, i.e. sensitive to cellular redox processes), which can become a promising basis for a multifunctional nanomaterial for the treatment of cancer. Exposure can be particularly effective in treating cancer cells sensitive to ferroptosis, such as 4T1 breast cancer cell line. This effect is described for the first time in the world in the international scientific journal Pharmaceuticals (Q1). This was announced on July 11, 2023 by representatives of NUST MISIS. Read more here.

Scientists' discovery of unusual antibacterial properties of titanium trisulfide nanoparticles

Scientists of Tambov State University named after G.R. Derzhavin and the National Research Technological University "MISIS" synthesized experimental samples of nanolens of titanium trisulfide and investigated their antibacterial properties on E. coli. According to scientists, the results of research will allow in the future to develop new drugs and materials with antibacterial properties for wide use, including in the field of medicine, veterinary medicine, crop production, in the production of antiseptic coatings, and so on. Such information was shared with Zdrav.Expert on July 4, 2023 by MISIS representatives. Read more here.

Photocells have been created in Russia that generate electricity from the light of ordinary light bulbs

On May 4, 2023, Russian researchers from the University of Science and Technology MISIS in Moscow announced the development of a perovskite solar cell with a record efficiency with a different combination of light colors. The product is capable of charging gadget batteries from any household light bulb. Read more here.

Launch of the direction "Design of unmanned vehicles"

From 2023, the University of Science and Technology MISIS will begin to train specialists in the field of industrial design of drones. The corresponding direction "Design of unmanned vehicles" will open in the magistracy "Promdizine and Engineering." The decision to include it in the educational process is due to the increased needs of the market in such devices in the absence of specialized specialists. The starting salary of a specialist is from 80 to 140 thousand rubles. The university announced this on May 3, 2023.

The design of unmanned vehicles is one of the key directions for the development of mechanical engineering.

The formation of this profession is becoming obvious - "a specialist in flying robotic platforms." Unlike an external pilot who controls a drone, he programs, makes changes to the device (integrates sensors, sensors, manipulators, cameras, etc.), works with hardware, modernizes the drone into a flying robot, into the "smart" side in the "software + iron" bundle, - said Tatyana Karpova, director of educational programs Gaskar group - an industrial partner of the NUST MISIS educational program, from which the first tasks will come to students.

Drones are postal robots, agricultural drones, trucks, delivery vehicles, etc. But also this is a service infrastructure, rules of interaction, user experience - all this is the area of ​ ​ competence of an industrial designer in the context of designing an unmanned vehicle. In addition, such specialists should be well versed in the technical features of the structures, see the vulnerabilities of technologies and clearly understand the real element base.

Many universities teach students how to design and manage unmanned vehicles without paying special attention to industrial design. However, with the increase in tasks and the expansion of drone functionality, the demand for narrowly focused specialists increases. My partners and I decided to fill this gap and start training personnel who are guaranteed to be in demand by the market, - said Elena Panteleeva, head of the master's program, development director of the National Center for Industrial Design 2050.

The subjects of the initial development of undergraduates will be small drones for autonomous monitoring of tunnels and subways; cleaning and repair of internal diameter of pipelines; maintenance of conveyor lines in production workshops; contactless delivery of goods inside the premises.

Also in the master's program will be the tracks "Promdizine and Engineering" (4 semesters), and "Technological Processes in Design" (2 semesters), which are prepared by industrial designers, but with different specializations.

Russian scientists have increased the performance of quantum processors using kudits

Scientists at NUST MISIS and the Russian Quantum Center have proposed an approach to the implementation of quantum algorithms using additional levels of the quantum system, which made it possible to increase by an order of magnitude the final quality of execution of quantum algorithms. This was announced on April 7, 2023 to TAdviser by representatives of NUST MISIS.

According to scientists, the main way to improve the performance of quantum processors is to increase the number of their qubits - the smallest unit of information in. quantum computer However, ions or atoms, which often act in roles, qubits have more than two levels and can work not only as qubits, but also as kudits, which are an extended version of the qubit and can be in three (cutrites), four (puppets), five (puppets), and more states. Additional states allow denser coding data in physical media, which in turn makes it possible to implement increasingly complex and complex quantum algorithms. Thus, the quantum power increases, and operations processor can be carried out much faster, the researchers explained. More. here

Russian scientists have found a way to protect bone implants from microbes

Scientists at NUST MISIS have proposed a solution that opens up new prospects for the creation of safer and biocompatible bone implants. This was announced on March 28, 2023 by Zdrav.Expert representatives of the university.

In particular, the scientists found that the protein lysostafin transfers antibacterial properties to bioceramics when applied, it effectively inhibits the growth of staphylococcal strains and destroys bacterial biofilms. Such ceramics can be used as the main component of implantable materials. Read more here.

MISiS scientists studied the effect of silicon wafer surface on cell adhesion

Scientists at NUST MISIS have studied the effect of the surface of silicon wafers on viability and cellular adhesion - the ability of cells to attach to the material. Representatives of the university shared the results of the study on March 15, 2023 with Zdrav.Expert. According to scientists, silicon has a number of advantages, and in the future, silicon plates with a porous surface can find their niche in biomedical technologies, for example, for creating biointerfaces, sensors for reading electrical signals from tissues and interfaces for stimulating cells. Read more here.

2022

Russian scientists have proposed a way to reduce LEDs without losing efficiency

Russian scientists at MISIS University, together with colleagues from South Korea, have come close to understanding the processes that impede the further miniaturization of devices based on wide-band semiconductors, such as LEDs for LED displays. This was reported to TAdviser on December 20, 2022 by representatives of MISIS. The researchers suggest that the problem can be solved with additional surface treatment. Read more here.

Scientists have proposed the use of scallop shell in dentistry

An international team of scientists with the participation of NITU MISIS researchers received material for restorative surgery from the shell of the Nodipecten nodosus scallop. It is safe for the body and has high antibacterial properties. In the future, the material can be used in dentistry and maxillofacial implantology. The institute announced this on December 13, 2022. Read more here.

Russian scientists have tested superconducting low-frequency qubits

Russian physicists of the laboratory "Superconducting Metamaterials" of the University of MISIS and Moscow State Technical University named after N.E. Bauman were among the first in the world to implement a two-cube operation using superconducting flaxonium qubits - an alternative to popular transmons. The peculiarity of flaxoniums consists in a longer life cycle and greater accuracy of operations, which makes it possible to perform longer algorithms. This was reported to TAdviser on November 15, 2022 by representatives of MISIS University. Read more here.

A physical effect has been discovered that can form the basis of quantum devices

Scientists from NUST MISIS and MIPT discovered the physical effect of resonant oscillations of superconducting critical current in a Josephson device based on a nanocrystal of a topological insulator created by a scientific team. This was announced on October 31, 2022 by DNA Communications. Read more here.

Technology transfer to China

At the end of May 2022, the National Research Technological University MISiS announced the conclusion of an agreement with the Chinese Scientific Corporation of the Chinese Academy of Sciences (CAN-Tilink). We are talking about cooperation in the field of higher and additional education, the creation of joint laboratories and the implementation of innovative projects, as well as the transfer of NUST MISIS technologies in China.

The signing ceremony of the cooperation agreement was attended by Mrs. Jiao Xuemei, Vice President of CAN-Tilink and Executive President of the company, Mr. Zhao Kejie. On the part of NUST MISIS, the agreement was signed by Vice-Rector for Science and Innovation Mikhail Filonov.

NUST MISIS will transfer its technologies to China

NUST MISIS and Chinese research organizations associate many years of fruitful cooperation through BRICS, as well as with the support of the Russian Science Foundation. Earlier, two international projects of scientists from NUST MISIS, Fundan University and Beijing Scientific and Technical University received grant support from the Russian National Research Institute and the State Foundation for Natural Sciences of China.

According to the press service of NUST MISIS, KAN-Tilink is engaged in organizing, investing and ensuring financial cooperation in the field of science and technology, as well as scientific exchange.^[3]

Scientists have developed a method for creating quantum entanglement

On May 4, 2022, NUST MISIS reported that its scientists had developed a method for forming a connection between multi-level quantum bits, allowing for a stable exchange of information between them. The technology could form the basis for the production of commercial quantum computers. The study was published in the journal Physical Review B. More details here.

Opening of the Master's Degree "Technological Support of Innovation"

In early April 2022, the National Research Technological University MISiS announced the opening of a master's degree in Technological Support for Innovation, created to train design engineers capable of bringing high-tech domestic developments into small-scale and mass production.

The curator and technological base of the program is the Karfidov Lab design bureau, which develops turnkey technical products - from idea to physical implementation. The authors of the initiative believe that graduates will be in demand, including in the field of biomedical and energy technologies. The starting salary of such specialists is from 80 thousand to 150 thousand rubles. depending on the role in the project team.

Master's degree "Technological support of innovations" opened in NUST "MISIS"

It is noted that the master's program "Technological support of innovations" was developed taking into account the growth in demand for specialists in these areas and is aimed at training in production technologies from a small series to a large one - from 3D printing and casting to composite accessories and molds - taking into account the financial component. Graduates of the program will have a holistic understanding of the production process of plastic, metal and other materials.

As stated in MISIS, students will learn to form a budget, calculate the cost of producing parts and components, manage the price of the final product and analyze potential markets. The Karfidov Lab Design Bureau offers students of the program a technical base and the possibility of passing production practices.

Particular attention in training will be paid to practical work on projects based on real production tasks of large companies. For each master's student, from the first days of training, an individual scientific and educational trajectory will be formed in accordance with his interests, research issues and current projects.^[4]

Scientists have confirmed the presence of anomalies in the brain of those who have had coronavirus

On February 28, 2022, it became known that scientists NUST MISiS, MSU named after MV, together with experts Sberbank , was used developed on the neurointerface basis of electroencephalography electric assessing the characteristics of the brain activity of people who had recovered. COVID-19 The revealed features of the brain can be interpreted as a manifestation of possible neurological consequences. Researchers have shown statistically significant signal differences in people who brain have suffered and have not undergone COVID-19. More. here

Creating Material from Tropical Plants for Cancer Therapy

On February 17, 2022, it became known that scientists at NUST MISIS as part of an international team synthesized material with antibacterial and anti-cancer properties. According to the authors, it has prospects for use in biomedicine. The study is published in the journal Materials Chemistry and Physics. Read more here.

2021

Scientists have learned to print on a 3D printer with almost all popular metals

Scientists of the laboratory "Catalysis and Processing of Hydrocarbons" NUST "MISIS" have learned to print 3D products from metals of different groups on the same printer. The institute announced this on December 1, 2021. Scientists at NUST MISIS have taken metal 3D printing to a new level by introducing a universal production technology for various industries on a single 3D printer. The basis was the 3D printer of the Russian company Addsol, the design of which was optimized and finalized by the laboratory engineers. Read more here.

Russian physicists have proposed material for the development of self-fitting implants

Specialists of the National Research Technological University "MISIS" together with other Russian scientists were able to improve the main medical material with the shape memory effect. The university announced this to Zdrav.Expert on September 14, 2021. Read more here.

Russian scientists have proposed a new method for analyzing the mechanism of action of nanopreparations

Scientists of NUST "MISIS," Moscow State University. M.V. Lomonosov, Research Center "Kurchatov Institute," Physics and Technology Institute of the Russian Academy of Sciences and RCTU named after D.I. Mendeleev proposed to use Mossbauer spectroscopy for the analysis and assessment of diffusion parameters and hydrodynamic properties of nanoparticles - a method of nuclear gamma resonance, popular in physical materials science, geology and chemistry. This was announced on August 24, 2021 by NUST MISIS. Read more here.

Scientists have found a way to reduce the cost of preclinical tests of bone implants

On April 7, 2021, it became known that scientists at NUST MISIS in tandem with biologists at the N.F. Gamalei proposed an economical way to test the ingrowth strength of bone implants in case of critical skull defects. The method involves the use of a mouse model and allows evaluating the effectiveness of implant integration. The costs of using it are reduced by 50 times compared to experiments on large animals, allowing you to collect more extensive statistical material and accelerate the development of the clinical stage of research. The results of the work are published in the Journal of the Mechanical Behavior of Biomedical Materials. Read more here.

Scientists managed to synthesize "Biomicrobots" that will help detect cancer cells

On March 18, 2021, NUST MISIS informed Zdrav.Expert that its scientists were able to synthesize "Biomicrobots" capable of finding and tagging various macromolecules in living tissues of the body. They consist of magnetic nanoparticles and antibodies attached to them and in the future will be able to visualize the distribution of proteins in cells. Read more here.

Opening the direction "Sigma. Academy"

On February 2, 2021, SIGMA announced that, together with the National Research Technological University MISIS, they signed an agreement on cooperation and organization of training courses.

The agreement will help implement joint projects and create additional modules within the framework of the university's curriculum. SIGMA is an expert in the development and implementation IT of systems for automation, billing maintenance and financially economic activities of large power holdings.

SIGMA. Academy is an educational direction that includes a laboratory at LETI, special courses at MISIS and internships at SIGMA for students of all universities. This is SIGMA's big investment in the future of the Russian IT industry, which helps students gain real experience in the energy sector and unlock their potential in the field of development, consulting and business analytics.

Cooperation between SIGMA and MISIS will develop on the basis of the Department of Business Informatics and Production Management Systems. For more than 30 years, the department has been training IT specialists and collaborating with the best companies in the industry. Together with the university, Academy experts have already developed a number of specialized special courses that will help students strengthen digital competencies to work in large IT projects in the field of power and housing and communal services.

In the near future, the training of the first task force in direction 1C will be completed. The course consists of applied lectures and practical lessons: project development, case herds, individual and group tasks. Using the SIGMA project experience, MISiS students get acquainted with gjcktlybvb technologies, and then use them in practice. Graduates of the special course will undergo an internship in the Moscow division of SIGMA, where they will deal with the company's current 1C ERP projects: production asset management and maintenance (tech. maintenance and repair of equipment). As a result of the internship, the best students will be admitted to the SIGMA staff.

SIGMA. Cademia is created for the IT generation and is focused primarily on practice and concrete result. I am sure that the joint projects of SIGMA and MISIS will create a powerful personnel potential for the future of Russian power, - said Alexander Eroshkin, head of the department for the development of the personnel reserve and innovation at SIGMA

The training of professionals in the bachelor's degree of our department consists of 4 main components: a lecture course - theory, a practical and instrumental course - certification, specialization - in "business clubs" and professional training with an internship with the employer - Academy. Without going through this cycle, it is impossible to release a professional in his field, a specialist who is already in demand on the market at the exit from the university. The Academy is our main key to the profession, a forge of professional skills and competencies! - comments the head of the department of BISUP Pyatetsky Valery Efimovich.

2020

Teaching 43 students from China

By March 2020, 43 students from China studied at NUST MISIS, of which 12 were in Russia, 31 were in China, who did not have time to return from vacation due to the COVID-19 coronavirus pandemic. All of them were transferred to individual curricula and remotely underwent an educational program under the guidance of curators and teachers. Chinese students noted that distance learning allows them to master the material in a timely manner, despite the difficult epidemiological situation in the world.

MISIS scientists used Indian plant to fight lung cancer

On December 8, 2020, it became known that zinc oxide nanorods that suppress the growth of cancer cells were able to be obtained by scientists at NUST MISIS as part of an international group of researchers. According to experts, the created nanorods are obtained without the participation of toxic substances using an extract from the leaves of a tropical plant. The results of the study are published in the journal JOM. Read more here.

Cancer cell pH level becomes foundation of targeted drug delivery system in cancer therapy

On November 26, 2020, it became known that the scientific team of NUST MISIS, SibGMU and RNIMU named after N.I. Pirogova discovered that the efficiency of penetration of magnetic nanoparticles with a drug into the tumor depends on the pH level of its microenvironment (tissues). The results of the study will help create an oncotherapeutic "accurate hit" and are published in the international scientific journal Nanomedicine. Read more here.

MISiS scientists have found a way to cheaper production of materials for cooling systems

On November 23, 2020, it became known that scientists at NUST MISIS found a way to reduce the cost of producing composite heat-removing materials for industry and electronics by up to 10 times, which makes it possible to reduce the cost of producing thermal radiators. As initial components, it is proposed to use synthetic rubbers and silicon carbide - having proper thermal conductivity, but poorly conducting electric current. Based on them, elastomeric mixtures are obtained, which are subjected to vulcanization and low-temperature carbonization. An article about the development was published in the journal Polymers. Read more here.

Materials scientists "MISIS" presented antibacterial nano-coatings based on boron nitride

On September 9, 2020, it became known that materials scientists at NUST MISIS presented boron nitride-based antibacterial nano-coatings up to 99.99% efficacy against microbial pathogens. They can become a safe alternative to the usual antibiotics in implantology, since they do not have characteristic negative side effects. The results of the work are presented in the international scientific journal ACS Applied Materials & Interfaces. In more detail. here

MISiS scientists have created a hybrid structure of magnetic nanoparticles and humic molecules

On September 7, 2020, it became known that scientists at NUST MISIS together with colleagues from the Institute of Organic Chemistry named after N.D. Zelinsky RAS and the Institute of Physical Chemistry and Electrochemistry named after A.N. Frumkin RAS created a hybrid structure of magnetic nanoparticles and humic molecules. The proposed hybrid is biocompatible, its production does not require high costs, and in the future it can be used for magnetic diagnostics and high-temperature therapy of cancer. An article on the development was published in Nanomaterials. Read more here.

Magnetic-gold nanohybrid will help fight cancer

On July 27, 2020, it became known that the team of scientists at NUST MISIS, together with colleagues from Russia and Germany, presented a detailed study of nanoparticles-hybrids from magnetite and gold. In the future, such nanoparticles can help in theranostics - the diagnosis and subsequent therapy of cancer. Read more here.

A team of NUST MISIS students presented a project to develop a self-soluble material for bone implantation

On July 23, 2020, it became known that a team of students at NUST MISIS presented a project to develop a self-soluble material for bone implantation. The combination of the properties of various polymers in combination with a mineral additive will allow the creation of implants that take on the load and allow the patient's own bone to grow actively. Having fulfilled its function, the materials will gradually and without side effects dissolve in the body. Read more here.

NUST MISIS, SkillFactory and Mail.ru Group launch Russian-language online master's degree in Data Science

On May 28, 2020, the company Mail.ru Group announced that NUST MISIS and the educational platform in the region - Data Science SkillFactory concluded an agreement on the creation of a joint online master's program "Science of" and data cooperation in the development of educational technologies in the highest. This is a education partnership between a private educational company and a university state under the OPM (Online Program Management) model. The industrial partner of the program is Group. Mail.ru The program is also supported, and. Nvidia Rostelecom NTI University "20.35" More. here

Found a way to improve the security of quantum cryptography

On April 6, 2020, it became known that scientists from the consortium of the NTI Competence Center "Quantum Communications" (NUST "MISIS," QRate company and the Russian Quantum Center) have developed a way to increase the level of security of quantum cryptography systems using a special algorithm that allows detecting attacks on a quantum random number generator. Read more here.

Participate in the development of a material that will extend the lifespan of storage devices

On January 27, 2020, it became known that an international group of scientists from NUST MISIS and the National Institute of Quantum Sciences and Radiology (Japan) developed material that will significantly increase the density of recorded information in data storage devices, such as solid-state drives and flash drives. Read more here.

2019: NUST MISIS entered the top 10 best ICT academies of Huawei

Huawei NUST MISiS ICT Academy was among the top 10 best academies among 600 universities and colleges around the world with which the company cooperates. The awards took place on May 26 at Huawei's headquarters in Shenzhen.

Cooperation between NUST MISIS and Huawei began in 2015, when an agreement was signed to create an ICT academy based on the university. In 2016, the vendor course "Hardware storage and data processing systems" was introduced, which was pre-tested in the form of DPO, and now is a mandatory course for masters of IT areas of NUST MISIS with an exam in the form of professional certification. In 2019, the university began testing a new course on R&S networks in undergraduate programs.

NUST MISIS takes part in Huawei vendor competitions, such as the international IT Planet Olympiad, Huawei Honor Cup, Hyawei ICT Competition. Thanks to its activity, the Huawei NUST MISIS ICT Academy in 2017 received the prestigious Best ICT Academy award and was recognized as the best network academy of the company in Russia. And at the end of 2018, it entered the top 10 best academies among 600 universities and colleges around the world with which the company cooperates. The top 10 also includes an academy based on the Moscow State Technical University named after N. E. Bauman, a total of 18 academies have been opened in Russia.

2017

NUST MISIS concluded an agreement with the European Organization for Nuclear Research (CERN) on the format of work as part of the ShiP experiment. Two memoranda on cultural and scientific interaction with other participants in the SHiP experiment were also signed: the Italian National Institute of Nuclear Physics (INFN) and the Friedrich II University of Naples (UNINA). The university opened the Kinetics Engineering Center for Prototyping of High Complexity, a high-tech digital laboratory that provides a full cycle of innovative product development. NUST MISIS and OK RUSAL created the Institute of Light Materials and Technologies (ILMiT) - a platform for research and development (R&D) on the development of modern technologies. Vnesheconombank and NUST MISIS have created a Competence Center for new materials and breakthrough technologies with a main focus on blockchain, convergent and quantum technologies. The main consumer of his services will be Russian state-owned companies and authorities. Young scientists at NUST MISIS received an award for the development of betavoltaic converters for autonomous power sources necessary for space exploration and Arctic exploration.

2016

NUST MISIS showed high growth rates among domestic universities in the world and regional QS ratings: the university improved its performance by 100 positions in the QS World University Ranking, rose from 89th to 87th place in the QS: BRICS rating and from 75th to 63rd place in the rating of developing countries Europe and Central. Asia In the QS Graduate Employment Rankings, NUST MISIS was among the 7 universities in the world that scored the maximum 100 points according to the criterion "Organization of interaction between employers and students." NUST MISIS and the Russian Quantum Center (RCC) have created a scientific collaboration "NUST Quantum Center MISIS," which includes about 10 research laboratories and centers. The combined potential allows the NUST MISiS Quantum Center to claim leadership positions among world scientific centers specializing in this issue. The university became a participant in the SHiP (Search for Hidden Particles) experiment at the European Center for Nuclear Research (CERN, Geneva). Two researchers of NUST "MISIS" - the head of the laboratory "Functional low-dimensional structures" Professor Morozov S.V. and the scientific director of the laboratory "Inorganic nanomaterials" Professor Golberg D.V. - entered the list of Thomson Reuters "The most influential scientists in the world - 2016." Young scientists of NUST MISIS were awarded the Prize of the Government of the Russian Federation in the field of science and technology for the creation of a unique laser complex for controlled thermonuclear fusion, as well as the Prize of the Government of Moscow for the development of import-substituting technology for the manufacture of cast parts from titanium alloys for the Russian aviation industry.

2015

NUST MISIS entered the ranking of the best universities in the world THE World University Rankings (group# 601-800) and improved its position, rising by 50 points in the global ranking, QS World University Ranking. And also showed the best dynamics among Russian universities, advancing by 9 positions in the QS rating of the BRICS countries. NUST MISIS - became a participant in the international rating Times Higher Education: World's Best Small Universities Ranking, taking 19th place in the rating. Young scientists of NUST "MISiS" became laureates of the Prize of the Government of the Russian Federation in the field of science and technology for young scientists for the development of technology for obtaining fibrous magnetic materials for innovative tissues, providing comprehensive protection of a person from external influences.

2014

The merger of NUST MISIS and Moscow Mining University was completed. For 2018, the National Research Technological University "MISIS" includes three Russian and one foreign branch, as well as nine institutes located in Moscow. NUST "MISIS" entered the international educational rating QS World University Ranking. In the QS: BRICS rating, the university took a place in the TOP-100 of leading universities. The International Scientific Council of NUST MISIS began its work, which included representatives of the world scientific elite from leading universities in the world: Cambridge, Stanford, Technion and other scientific centers.

2000-2008

In 2000, the Moscow State Institute of Steel and Alloys became a laureate of the Russian Government Prize in the field of education quality. On October 7, 2008, by the Decree of the President of the Russian Federation Dmitry Medvedev, MISiS received the status of a "National Research Technological University."

1960-1980

In 1960-80, there was active growth and a surge of interest in the exact and natural sciences throughout the country. At this time, a scientific school was finally formed in MISiS. From 1976 to 1991, he was led by Alexei Alekseevich Abrikosov, who received the Nobel Prize in Physics in 2003 for "fundamental work on the theory of superconductors and superfluids."

1948

In 1948, the university opened the Faculty of Physics and Chemistry, which trained well-known "secret physicists" for research organizations, the nuclear and defense industries. In 1962, the faculty of semiconductor materials and devices was opened, after which the university was renamed the Moscow Institute of Steel and Alloys.

1918-1944

The history of the National Research Technological University "MISIS" began when the Moscow Mining Academy was created in 1918, in which the metallurgical department was opened. The university was constantly expanding, and already in 1921 the departments were transformed into universities, and by 1930 the academy was divided into six independent institutes. For 2018, three of them - the Institute of Steel, Non-Ferrous Metals and the Mining Institute again merged into one educational institution - the National Research Technological University "MISIS." Many university graduates are legends of Soviet industry, called "steel people's commissars." So, the black metallurgy of the USSR for many years was headed by Ivan Fedorovich Tevosyan, non-ferrous metallurgy was led by Pyotr Fadeevich Lomako, who was listed in the Guinness Book of Records for the longest work in ministerial posts. The "atomic project" of the Country of Soviets was led to success by the first rector of MISiS Avraamy Pavlovich Zavenyagin, Efim Pavlovich Slavsky and Vasily Semenovich Emelyanov. Head of the Department of Ferrous Metallurgy of MISIS, Academician Mikhail Alexandrovich Pavlov in 1920-1930 participated in the design of all major metallurgical plants, blast furnaces and steelmaking units of the country. During the Great Patriotic War, MISiS was given a strategic task - the training of qualified personnel, in which there was an acute shortage. Despite all the difficulties, including the need to almost re-form the teaching staff, the university coped and began training personnel for metallurgy. It was for this dedication that on February 23, 1944, MISiS received its first award - the Order of the Red Banner of Labor. After the end of the war, the approach to personnel training changed significantly. Previously, MISiS was focused on training specialists to work in factories, and in the post-war years, attention was focused on science.

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