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    First metal-organic coordination polymers synthesized at Samara Polytech

    The resulting nanostructured materials have unique properties.

    Fullerenes, metamaterials, composites and superconductors – these are all the materials from which the world of the future will be created. A relatively new class of metal-organic coordination polymers immediately attracted the attention of specialists around the world. Samara scientists, like their colleagues, actively engaged in predicting their structure and properties, first creating a model on a computer screen and immediately synthesizing material in the laboratory.
    Under the leadership of the head of the laboratory for the synthesis of new crystalline materials of the Samara Center for Theoretical Materials Science (SCTMS) of Samara Polytech, candidate of chemical sciences Evgeny Aleksandrov and the head of the department “Chemistry and Technology of Chemical Organic Nitrogen Compounds”, doctor of technical sciences Andrei Pimenov, the synthesis of the first metal-organic polymeric materials, or organometallic carcasses (IOC). Recent research results were published in Dalton Transactions scientific journals
    (https://pubs.rsc.org/en/content/articlelanding/2019/dt/c9dt00249a#!divAbstract) and Chemical Science (https://pubs.rsc.org/en/content/articlelanding/2019/sc/c9sc03348c#!divAbstract) reputable foreign publisher The Royal Society of Chemistry, as well as Crystal Growth & Design, American Chemical Society (https://pubs.acs.org/doi/10.1021/jacs.9b05232).
    The obtained porous metal-organic frameworks attract the attention of scientists by the fact that they demonstrate record sorption characteristics in relation to various volatile substances, gases, liquids and ions. This is a kind of crystalline sponge, but with unique parameters. One gram of such a substance has a pore surface area comparable to the area of a football field. In addition, they are able to combine several useful properties: magnetic susceptibility, luminescence, electrical conductivity, catalytic activity, and much more. This allows you to create advanced materials for sensors and sensors on their basis, for storing and processing information, photocells, nanoreactors.
    “We have a real chance to develop in Samara technologies for the manufacture of new materials for energy-efficient sorption separation of oil products and industrial gases, as well as for highly selective and highly sensitive chemosensors”, – says the candidate of chemical sciences, head of the laboratory of the center Evgeny Alexandrov. – “Development of various aspects (sorption, electrical conductivity, mechanical stability, structure design) of this topic has already been supported by the scientific foundations of the RSF, RFBR and the presidential grant. In addition, applications were sent to two scientific foundations and an industrial partner is being sought.”
    More than 20 crystal samples of both known and new, not yet studied, porous and electrically conductive metal-organic coordination polymers have been synthesized by the candidate of chemical sciences Andrei Sokolov, Viktor Parfenov, and student Ekaterina Vaganova in the laboratory of the Institute. These are materials with high porosity, good stability and sorption properties in relation to the components of natural gas, air, gaseous and liquid industrial emissions. Together with the staff of the Department of Physical Chemistry and Chromatography of Samara University (the head of the department, Professor Lyudmila Onuchak), it is planned to manufacture composite materials on their basis and study the surface topography of these composites, their ability to hold various substances on the surface – for example, components of natural gas. Together with the head of the Scientific and Educational Center Medical Diagnostic Microsystems at the Institute for Innovative Development of Samara State Medical University Andrei Sokolov, it is planned to create chemosensors and cathode materials for metal-ion batteries based on IOC.
    “I consider these first syntheses of the IOC as a landmark event in the development of our research center”, – said Vladislav Blatov, Professor, Director of SCTMS. – “Our center is very young: we are officially approved as a university unit at the very end of 2017. At the same time, in such a short period of time, with the support of the leadership of Samara Polytech, we were able to do what we had long dreamed of – to begin the practical implementation of our theoretical forecasts of new crystalline substances and materials in our laboratory”.
    Scientific research by scientists from Samara Polytech is supported by a grant from the Russian Science Foundation (RSF).

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