Search by tag «New Materials» 53 results

• How New Advanced Materials Help Fight Bacteria – and Cancer

  Gary Hix is a professor of the University of Wolverhampton (the UK) and the head of Wolverhampton School of Sciences. Together with his research team, Prof. Hix designs anti-bacterial medical materials. In an open lecture at ITMO University, he spoke about organic-inorganic hybrid materials, metal phosphonates and oxides, and how these substances are produced. Speaking about anti-bacterial materials, Prof. Hix explained the effect of their structure on the discharge of active substances and how these materials are made to possess therapeutic qualities.

  12.12.2018

• ITMO Researchers Publish Review on Perovskite Research

  Halide perovskites are highly promising in regards to their application in the fields of photovoltaics and optoelectronics, including the development of new devices based on advanced nanophotonics concepts. In 2013, the journal Science included perovskites in its list of top-10 breakthrough technologies. This year, a team of ITMO scientists in collaboration with their colleagues from the University of Texas in Dallas and the Australian National University prepared a review where they studied the optical properties of nanostructured perovskites, answered the question of why fundamental studies of these structures are most important for the development of new optical devices, as well as made predictions about future research in this field. The material was published in a special Hall of Fame issue of Advanced Optical Materials.

  10.08.2018

• ITMO Participates in SPIE Photonics Europe 2018

  From April 22 to 26, SPIE Photonics Europe 2018 international conference in the field of photonics and nanotechnology took place in Strasbourg (France). ITMO University was represented by a Master’s student Yulia Raxumova and a PhD student Aysylu Kamalieva from the Department of Optical Physics and Modern Natural Science. Read more about the conference’s procedure and the research presented by ITMO University.

  18.05.2018

• Russian, German and French Scientists to Collaborate on Nanowhisker Research at European XFEL

  Scientists from ITMO University were granted the right to conduct an experiment on XFEL, the world's largest free-electron laser. The project will be carried out in collaboration with researchers from Germany and France. It will also be the first project at the European XFEL managed by a group of Russian scientists. The experiment is devoted to the study of nanowhiskers - nanomaterials with high spatial and energy resolution of the electronic structure and atomic formation. Among the potential applications of nanowhiskers, or threadlike nanocrystals, are various areas of electronics and medicine. Read out article to learn more about the project and its future prospects.

  28.03.2018

• Chemist Ekaterina Skorb On International Work Experience And Prospects Of Infochemistry

  In the course of her scientific career, Ekaterina Skorb has worked in four different countries. After receiving her education in Minsk, she continued  with  her research at Max Planck Institute in Germany where she led a research team and developed smart biomaterials. At Harvard, she worked in the team of George Whitesides, the world’s most cited chemist, on several fundamental projects, including the Origins of Life. As of now, Ekaterina Skorb is a professor at ITMO University, leading a research team in its Biochemistry Cluster. Among its key projects are creating dynamic optical materials, biochips that would allow to diagnose a wide range of diseases, and fundamental research in the field of storing information with the help of chemical systems. In an interview for ITMO.NEWS, she talked about her work in the world’s major universities and moving to Russia, key research areas, and combining chemistry with IT.

  12.02.2018

• Cheap, Eco-Friendly, Biocompatible: Bright Prospects For Nanocellulose

  Nanocrystalline cellulose is said to be the material of the future. It can be synthesized from wood and recycled from paper, which makes it highly affordable; it is eco-friendly and biocompatible. Thanks to its distinctive mechanical and optical qualities, the prolate form of particles, as well as certain properties of the material’s surface, nanocrystalline cellulose is already applied in many fields, and scientists expect to soon find even more applications for it. In this article, we’ve decided to cover the possible uses of this promising material.

  08.02.2018

• ITMO Researchers Team Up With French Scientists on New Type of Hybrid Nanoparticles

  Scientists from ITMO’s Department of Nanophotonics and Metamaterials have won a grant as part of a federal targeted program. The three-year project will be carried out in collaboration with the Institute Jean Lamour (France), which has a great deal of experience in production and characterization of new hybrid nanostructures which have no counterparts among the existing materials and structures. This collaborative research will include the development of methods for the creation of new hybrid crystalline nanoparticles based on two metals, metal-insulators and metal-organics, as well as proving their unique optical properties. In future, they may serve as a foundation for cheap and effective hybrid photonic nanodevices.

  01.02.2018

• New technology allows safe MRI-diagnostics for people with implants

  An international research team has developed a device capable of improving the performance of MRI units. The technology is based on local redistribution of a magnetic field with the help of a metasurface made of metal resonators. It was proven experimentally that the metasurface is capable of reducing the power required to produce high-quality images using an MRI unit. The use of MRI units of lower intensity makes it possible to make MRI diagnostics safe for people with medical implants. The results of this research are published in the latest issue of the Journal of Magnetic Resonance.

  05.12.2017

• Chemist Artem Oganov: On Blind Spots in Chemistry and Materials of Future

  Today Artem Oganov is rightly considered one of the most famous Russian scientists of the new generation. Oganov is a theoretical crystallographer and the creator of a number of new materials – as well as methods of discovering them. A few years ago he solved the problem of predicting the crystal structure of a substance based on its chemical composition. This problem was for long considered to be unsolvable. Oganov created software capable of predicting stable chemical compounds based on a set of initial elements. His discoveries are so impressive that many consider him one of the likely candidates for the Nobel Prize in the next few years. Having worked abroad for 17 years - in England, Switzerland and the United States - at 37 he decided to return to Russia, where he became a professor of Skoltech and headed the Laboratory of Computer Design of Materials at MIPT. During an open lecture at ITMO University, Oganov spoke about his career abroad, his return home, materials of the future and creation of an evolutionary mechanism for predicting substance structures, which proves that even in well-known areas of chemistry there are still many "blind spots". Main points of the event - in this article by ITMO.NEWS.

  02.11.2017

• Doctor Yang Bai: “Now, We Can Collect Energy From Light, Motion, AND Heat At The Same Time”

  Last week, the Lighting Design - 2017 International Conference organized by ITMO University's Higher School of Lighting Design and the RULD creative association took place at the New Stage of Alexandrinsky Theatre. The event brought together representatives of the scientific community and business, adherers of art and innovation technology. More than 500 Russian and international experts in the fields of lighting design, architecture, art, urban science, engineering, IT, multimedia technologies and smart fashion discussed the industry's most relevant issues. At his lecture that was part of the conference's program, Doctor Yang Bai from Oulu University (Finland) spoke about a new generation of materials for the industry of Art&Science that might change our world, as well as a new revolutionary technology that allows us to derive energy from almost everything that surrounds us

  19.10.2017