Scientists from NUST MISIS (Russia) together with colleagues from Sweden, Hungary and USA found a way to manufacture stable qubits that would operate at room temperature, in contrast to the majority of existing analogues. This opens up new prospects for creating a quantum computer. Moreover, the results of the research can already be used to create high-accuracy magnetometers, biosensors and new quantum Internet technologies. The article is published in Nature Communications.
International group of Russian and Japanese scientists developed a material that will significantly increase the recording density in data storage devices, such as SSDs and flash drives. Among the main advantages of the material is the absence of rewrite limit, which will allow implementing new devices for Big Data processes. The article on the research is published in Advanced Materials.
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.
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).
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 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.
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.
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.
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.
Every invention from NUST MISIS scientists presented at the International Invention and Design Competition 2018, held in Hong Kong from December 5th to 7th, 2018, received an award, including two gold medals, a silver medal, and various special prizes from international organizations.