Science achievements

A Neutrophil is a Liposome’s friend: NUST MISIS Scientists Discover a New Factor of the Effective Drug Delivery to Tumors

The scientific team of the NUST MISIS Laboratory of Biomedical Nanomaterials has conducted an intravital (on the living tissue) study of the mechanism of targeted drug delivery to malignant tumors using liposomes. It turned out that the immune cells of the body neutrophils increase the efficiency of drug delivery to the tumor by 30%. The results have been published in the international scientific journal ACS Nano.

A helicopter from a printer: Russian scientists “print” a large-sized case of a helicopter engine for the first time

The internal engine body of the Russian helicopter VK-2500, completely created by the method of selective laser melting, is presented at the stand of the Ministry of Science and Higher Education of the Russian Federation at the Open Innovations forum in Skolkovo. The use of additive technologies for engine manufacturing has reduced the manufacturing time to 14 days. Developers: NUST MISIS and St. Petersburg State Marine Technical University (SMTU).

Solar Cells With New Interfaces: Innovative Two-Dimensional Materials Increase the Efficiency

Dangerous wild grass will be used in batteries: Scientists from NUST MISIS have turned hogweed into a material for a supercapacitor

Hogweed, which has grown over vast territories of Russia, can be useful as a material for batteries. Scientists from NUST MISIS have investigated the possibilities of fibrous substances in the plant stems. They have turned them into electrodes — elements of devices capable of storing energy. It was experimentally proven that the treated dangerous plant can successfully replace traditional sources of energy without compromising the quality of the batteries.

Scientists find a way to quickly determine the purity of water

Through the kidneys to the exit: scientists from NUST MISIS learn how to safely excrete nanomedicines

Squeak of cancer: scientists develop a new ultrasound tomography system for the cancer diagnosis

Human Heat to Electric Energy: New Materials Will Power Gadgets Uninterruptedly

Scientists from the National University of Science and Technology MISIS (Russia) together with their colleagues from Lulea University of Technology (Sweden) and Friedrich Schiller University Jena (Germany) developed the world’s first thermoelectric material with ordered nanotubes. Due to the polymer nature, it is flexible, and the addition of nanotubes several times increases its electrical conductivity. In the future, this material can be used to charge mobile devices without an additional power source: one such bracelet or case would allow one to charge their watch or phone directly from the heat of the human body. An article about the development is published in Advanced Functional Materials.

Unique Hybrid Implant First Installed to Cat

Nuclear physics in search of world artifacts: the first 3D images of the oldest Christian church in Russia were obtained

New Recycling Technology for Heavy Duty Military Batteries

Scientists develop low-cost energy-efficient materials

NUST MISIS Scientists Develop Lead-Free Vibration Sensors

Scientists from the National University of Science and Technology “MISIS” developed a new type of vibration sensors for devices for structural health monitoring of buildings and bridges, as well as spacecraft. The research article is published in Sensors.

Polymer Twin: New Implant Imitates Bone Structure

Materials scientists from NUST MISIS managed to increase rocket fuel burning rate by almost 5 times

Fabric the Reinforcer: Materials for Aircraft Brakes to Become More Reliable

Digitalized Infinity: NUST MISIS Engineers Present Blockchain Technology to Verify Natural Diamonds

Right on Target: Light Hybrid Molecule Stops Tumor Growth in Mice

Scientists Develop Self-Dissolvable Antibacterial Bandages

An international team of scientists from the National University of Science and Technology “MISIS”, the Central European Institute of Technology and several other universities has developed a biocompatible material with antibacterial properties. The material is planned to be used for bandaging of wound skin, for example, burns and cuts. Such bandages will have a prolonged effect, act locally and, most importantly, will not require changing. The material is self-absorbable, and a new bandage can be put directly on top of the old one. The article about the research is published in Materials and Design.

Transporting the Light Killers: Scientists Create a Unique Tandem of Organic Molecules and Nanoparticles to Fight Cancer

A team of materials scientists from NUST MISIS together with a team of chemists from MIREA-Russian Technological University have managed to combine a photosensitizer molecule (a converter capable of transmitting the energy of light quanta, available in living tissues, into oxygen and turning it into an active form and highly active radicals, which have a cytotoxic effect) with a magnetic nanoparticle to create an innovative therapeutic system to combat cancer. The nanoparticle is a controlled “locomotive” which researchers have learned to deliver locally to a tumor and track by MRI, and as a therapeutic component, the photosensitive molecule serves as an effective liquidator of pathology. The study results have already been tested in-vivo and published in the international scientific journal Journal of Colloid and Interface Science.

NUST MISIS Developments — Medalists at the SIIF 2018

Three NUST MISIS developments have received a gold medal and two silver medals at the Seoul International Invention Fair 2018 (South Korea).

Metal Cells to Reduce Weight of Spacecraft and Personal Vehicles

NUST MISIS engineers have proposed an innovative strategy of an additive printing of metal parts in a complex shape: the discovered ability to print cellular structures in their basis will reduce the weight of these metal parts and give them special properties. The new additive printing will cut the metal parts’ weight in half, while allowing them to maintain their strength. This is extraordinarily promising for engineering vehicles and space crafts.

How to Run Current on a Rusty Wire: NUST MISIS Physicists Discover a Fundamentally New State of Matter at Ultra-High Pressures

A research team of physicists from NUST MISIS, the Ural Branch of RAS (Russia), Tel Aviv University (Israel), the University of Bayreuth (Germany), and Linkoping University (Sweden), have discovered a completely new explanation for a generally accepted physical hypothesis — the phase transition insulator metal — described by Sir Nevill Francis Mott in 1949. New and unexpected properties of materials discovered in the study will be in demand in microelectronics and geophysics as catalysts and sensors: the research results have been published in the prestigious international journal Physical Review X.

The Next Evolution: Unique Method to Reduce Aircraft Weight Developed

The use of bionic design and additive technologies can reduce aircraft weight by almost a ton.

NUST MISIS — Gold Medalist at iENA-2018

NUST MISIS took part in iENA-2018, the 70th International “Ideas-Inventions-New Products” Trade Fair, held from November 1st to November 4th, 2018, in Nuremberg (Germany). iENA is one of the world`s oldest major exhibitions of inventions and innovations, demonstrating the latest achievements in the fields of science and technology, as well as contributing to the development of various areas of international cooperation.

NUST MISIS Professor — Winner of the Scopus Awards Russia 2018

Professor Anvar Zakhidov from NUST MISIS is one of the most cited Russian scientists according to Scopus. The information & analytical company Elsevier, which specializes in science and medicine, announced the names of the most cited scientists according to Scopus’s abstracts and citations from the peer-reviewed scientific literature database. The list includes 19 Russian scientists.

The NTI Center for Competences to Work on Russia`s Secure Communications

On October 31st, 2018, NUST MISIS hosted the opening ceremony of the National Center of Technological Initiative for Quantum Communication technology. Improvement of quantum communications facilities, training world-class specialists in the field of quantum engineering, research in the field of quantum network vulnerability, and the creation of quantum communication systems for satellites are among the Center’s main responsibilities. The center’s financing through 2022 will amount to 2 billion Rubles.