Science achievements

No repeat surgeries: how bioresorbable implants will transform medicine

Scientists from NUST MISIS, in collaboration with their industrial partner Osteo-Sibear, have established Russia’s first production facility for bioresorbable magnesium implants intended for maxillofacial surgery and traumatology. The advantage of these metal structures lies in the fact that they do not need to be removed from the body, because they dissolve over time. The development of a full-cycle manufacturing process for implants with optimal properties and enhanced biocompatibility will help reduce rehabilitation time and minimize the risk of complications. This technology is included in the Ministry of Industry and Trade’s list of critical products and is aimed at import substitution in the medical field.

Thermal vision: detector identifies precise inflammation sites based on skin temperature

Scientists at NUST MISIS have introduced detectors capable of registering the slightest changes in skin temperature — one of the earliest signs of inflammatory processes. The new devices are more sensitive than conventional ones, easily distinguishing necessary terahertz signals from noise. These detectors could form the basis for a new thermal skin mapping technology.

“White graphite” breaks records: scientists have сreated a material for ultra-high-capacity hydrogen batteries

Researchers from NUST MISIS, Aramco Innovations (Moscow), and EXPEC Advanced Research Center (Saudi Arabia) have presented an innovative nanomaterial capable of absorbing record amounts of hydrogen, making it a promising candidate for next-generation energy storage. This lightweight, safe, and durable material could be used to create portable batteries for electric vehicles, heating, ventilation, air conditioning systems, and other applications.

Russian scientists develop “smart” material for magnetically controlled drug release

A model of a “smart” composite material that enables controlled drug release has been proposed by Russian scientists from five leading universities in the country. This solution could be in demand for implementing delayed therapy approaches, where a drug loaded into the composite is not released immediately but after a certain time and in the required dosage. Activating the process only requires a single application of a magnetic field, such as those generated by modern medical tomographs.

A new method for studying composites allows for the detection of emerging defects in materials

Russian scientists have developed an innovative approach to studying the structure of composite materials that changes under external influence in real time. This methodology provides important data from miniature samples, which can now be tested in a scanning electron microscope chamber. The results obtained are used for reliable strength calculations, which will save costs in the production and testing of automotive and aerospace components.

100 million times faster: Russian scientists speed up nanotube-based detectors

In Russia, a super-fast integrated optical detector has been presented that can be adapted for various tasks — from telecommunications and thermal imagers to medical biosensors, security systems, and astronomical instruments. The device detects weak infrared signals in an integrated-optical chip 100 million times faster than its analogues and updates data more than one billion times per second, making it one of the fastest in its class.

Polymeric regeneration: biodegradable material to aid bone tissue restoration

Researchers at NUST MISIS have developed a dental membrane with an antibacterial coating, which has the potential to restore jaw bone tissue. The product is created using a 3D printer, personalized to the specific damage of patients. After the polymer framework is implanted at the injury site, the necessary tissues grow on it, and the structure safely dissolves after a few months. The chosen polymer does not cause acidification of the defect area, which can slow down or even halt the regeneration process. Unlike existing non-resorbable analogs, the biodegradable membrane does not require a second surgical intervention for removal.

A new composite for nuclear fusion reactors is being developed at NUST MISIS

Scientists from NUST MISIS and JSC “NIIEFA” have demonstrated how to produce a bimetallic material using hybrid additive manufacturing. Composites made of tungsten and copper with enhanced properties are used for plasma-facing components (PFCs) in nuclear fusion reactors. Research has shown that the thermophysical and mechanical characteristics of the tungsten-copper composite are comparable to those made using traditional methods. However, hybrid additive technologies can achieve more efficient heat dissipation and increase thermal cycling resources due to the proposed design of the tungsten-copper composite.

Building material from waste: Advanced gypsum to replace natural gypsum

An international team of scientists has presented an eco-friendly and economically viable technology for recycling waste lime and sulfuric acid into a high-quality construction material. This substance can be used to create a stronger and moisture-resistant cement that also sets faster. The new method is characterized by simplicity, significantly lower material costs compared to traditional technologies, and greater energy efficiency. It requires only 40°C instead of the usual 700-900°C.

New neuroimplant is one step closer to spinal cord injury patients

Researchers at NUST MISIS have patented a neuroimplant that will help restore damaged nerve tissues in the spinal cord. The structure consists of two layers: a biodegradable polymer and special fibers that can be filled with medications targeting damaged nerve tissues in the spinal cord and accelerating healing. Obtaining the patent confirms the high inventive level of the product and brings closer the possibility of launching production of the neuroimplant to assist people.

Science, Science achievements

A material that retains its strength in extreme cold conditions has been developed at NUST MISIS

Scientists from NUST MISIS, in collaboration with colleagues from the China University of Mining and Technology, have introduced a composite made from a combination of metal and metallic glass. This material is capable of maintaining its strength and ductility at temperatures as low as −195.75°C (−320,35°F) due to a self-heating effect. In the future, this development could help extend the lifespan of aerospace vehicles and equipment designed for operation in Arctic conditions.

Reaching for the Stars: Ultra-Sensitive Detectors for Space Exploration

Thanks to new detectors developed at the MISIS University, researchers can now obtain more comprehensive and precise maps of celestial bodies, accelerating scientific progress. These domestically produced superconducting devices operate near absolute zero, at temperatures below 1 Kelvin, and effectively process data due to their exceptionally low thermodynamic noise.

Universal nanobiosensor to aid in early disease diagnosis

Researchers at NUST MISIS have developed a high-precision nanoelectrode sensor capable of measuring copper ion concentrations in living cells and entire organs in real-time. This innovation opens up new approaches for diagnosing and analyzing the dynamics of cancerous and hereditary diseases. Additionally, the sensor will enable evaluating the effectiveness of novel medications containing copper.

Science achievements, Business

The first full-format domestic solar panel presented at the MISIS University

The first full-format battery based on hybrid perovskites made entirely from domestic materials and ready for production was shown at NUST MISIS. This next-generation solar panel is cheaper in terms of production costs, with a manufacturing cycle of 8 to 10 hours. It can be installed in private homes or on industrial sites, particularly those prioritizing “green” initiatives. The panel’s design, which connects multiple sub-cells, allows for high-power generation even in shaded and cloudy conditions. This breakthrough opens new possibilities for harnessing solar energy, even in the Arctic and Far North.

Science, Science achievements

Scientists have introduced a new “crossover” alloy for the aerospace and automotive industries

At NUST MISIS, a multi-component alloy has been developed that boasts high strength, corrosion resistance, and casting properties, making it promising for use in extreme temperature conditions, aerospace and automotive industries, as well as construction engineering. Researchers have combined the advantages of various groups of aluminum alloys into one material.

Science, Science achievements

Ten young scientists from NUST MISIS have won grants in the youth competitions of the Russian Science Foundation

Three projects from research groups and seven initiatives from young researchers at MISIS University were successful in the youth competitions within the framework of the Presidential Program for Research Projects of the Russian Science Foundation (RSF). The total funding for 2024-2027 will exceed 5.5 billion rubles, with 75 million rubles allocated to NUST MISIS.

Russian physicists have improved the protocols of quantum tomography

Researchers from NUST MISiS and the Russian Quantum Center (RQC) have tested a more precise technique of data analysis for quantum tomography, which is called a method of obtaining information about quantum states. It has demonstrated high computational efficiency and reliability compared to traditional approaches: data analysis is faster and more accurate.

Science, Science achievements

Scientists Discover a Way to Increase Metal Strength by 1.5 Times Using Lasers

Researchers at NUST MISIS, in collaboration with colleagues from China, have introduced a new method of laser processing for hard materials to enhance their strength and selectively eliminate surface defects. This approach is particularly relevant for the aerospace industry, nuclear sector, and biophysics, as it ensures more robust structures that can withstand various external impacts.

Scientists at NUST MISIS Develop “Digital Twins” for Managing Quantum Systems

Researchers from the National University of Science and Technology (NUST MISIS) and the Russian Quantum Center (RQC) have developed a model for managing complex quantum systems. This innovation opens new possibilities for faster information transfer and allows for better control over the system’s dynamics. The proposed method is beneficial for reducing errors and suppressing noise in quantum devices. It can be used to study various effects in many-body physics and to search for new quantum materials. Modifying the model allows for observing systems at a macroscopic level, paving the way for managing quantum systems across different phases of matter.

Science, Science achievements

NUST MISIS Creates Prototype Patch for Localized Chemotherapy

Researchers at the MISIS University have developed a prototype of a polymer patch designed to prevent the recurrence of malignant tumors by releasing chemotherapy drugs in a controlled manner over the course of a year. The patch is implanted at the site of the primary tumor removal, ensuring that the drugs are delivered directly to the area where residual tumor cells are concentrated. The biopolymers composing the patch safely dissolve in the body within 2-3 years. This gradual release of drugs over several months enhances the effectiveness of postoperative chemotherapy and reduces the side effects of treatment.

Scientists at NUST MISIS have identified the optimal alloy manufacturing mode for endoprostheses

A more efficient technology for producing a new generation titanium alloy has been proposed at the MISIS University. The results will allow for the future creation of stronger hip joint endoprostheses using 3D printing, which do not contain alloying components, do not cause negative immune reactions from the body, and take into account the physiological characteristics of patients. This will help avoid repeat implant replacement surgeries for many patients.

Scientists from NUST MISIS have created a composite shape memory material for 4D printing

Researchers at the MISIS University have developed a new magnetically sensitive polymer composite material that is promising for 4D printing, a technology in which materials can change their shape over time. The material is also suitable for creating adaptive medical devices, such as soft tissue fixators and “self-setting” bone implants. The composite, consisting of polylactide and cobalt ferrite, has the ability to heat up quickly under the influence of a high-frequency alternating magnetic field and recover its shape well after deformation, without causing harmful effects on the body.

Scientists from NUST MISIS have found out how to improve the alloy for maxillofacial implants

Based on the experiments, scientists from NUST MISIS have identified a methodology that improves the balance of strength and ductility of the biodegradable magnesium alloy used in biomedicine, particularly for maxillofacial implants. The peculiarity of the material lies in the fact that after the operation, it gradually dissolves in the human body. Fixing elements (screws, pins, plates, etc.) made of magnesium alloy are completely replaced by newly formed tissue, eliminating the need for a second operation to remove temporary elements from the human body. In recent years, researchers have been interested in the magnesium, zinc, and gallium alloy (Mg-Zn-Ga). The addition of zinc and gallium improves the mechanical and corrosion properties, allowing the integrity of the implant to be maintained for a certain period necessary for the healing process. Zinc contributes to the strengthening of the material, while gallium enhances its ductility, imparts antimicrobial properties, and increases bone tissue density. Due to its characteristics, this alloy is much closer to human bone tissue than titanium.

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